Delta OHM - Catálogo Geral by ERT Lda

Delta Ohm develops and manufactures instruments for measuring temperature, humidity, pressure, air speed, light, acoustic and vibration, CO, CO2 air quality, multifunction instruments, data loggers, WBGT microclimate, environmental analysis and water analysis. These are safe, accurate and resistant instruments. The SIT CENTRE N째. 124 laboratory of Delta Ohm is accredited in legal metrology for the following physical quantities:

Temperature

Humidity

Pressure

Air speed

Photometry-radiometry

Acoustic

It is now 30 years that Delta Ohm works with its instrument in the industrial, maintenance and assistant field, together with specialized Distributors. Delta Ohm production is spread over 60 countries.

www.deltaohm.com

Delta Ohm srl - Via G. Marconi, 5 - 35030 Caselle di Selvazzano (Pd) - Italy - Tel. 0039 0498977150 r.a. - Fax 0039 049635596 - e-mail: deltaohm@tin.it

index of categories

Temperature page 5 to 44 Portable instruments with Pt100, thermocouple probes. Configurable transmitters for Pt100 and thermocouple sensors. Calibrators, amplifiers/converters. Indicators/regulators. • Accredited laboratory SIT Centre 124 in Temperature. Humidity page 45 to 92 Portable instruments, temperature and humidity combined probes. Humidity and temperature transmitters, HVAC, temperature, humidity and CO2 transmitters, dataloggers, mini-dataloggers. • Accredited laboratory SIT Centre 124 in Humidity. Pressure

page 93 to 120

Portable instruments, pressure probes. Low and high pressure transmitters. • Accredited laboratory SIT Centre 124 in Pressure.

Air speed page 121 to 156 Portable instruments, hot-wire probes, vane probes, Pitot tubes. Air speed transmitters. • Accredited laboratory SIT Centre 124 in Air speed. Light page 157 to 192 Portable instruments, probes. Photometric and radiometric transmitters. • Accredited laboratory SIT Centre 124 in Photometry, Radiometry. Acoustic - Vibrations Sound level meters, Calibrators. Vibration meters, Accelerometers, Accessories. • Accredited laboratory SIT Centre 124 in Acoustic.

page 193 to 224

Air Quality - CO - CO2 page 225 to 240 Portable instruments for :CO2, CO, RH, °C, Air speed. Dataloggers CO2 - CO - UR - °C, CO2, CO2 and Temperature transmitters. Multifunction Multi input portable instruments, probes families.

page 241 to 260

Datalogger page 261 to 276 Datalogger for Pt100 probes with 8 inputs, for thermocouple probes with 8 to 16 inputs. Mini-datalogger for temperature or temperature and humidity. CO, CO2, temperature and humidity datalogger. Microclimate - WBGT page 277 to 296 Microclimate analysis in working environments, moderate hot or cold. Environmental Analysis page 297 to 336 Temperature, Humidity, Barometers, Rain indicators, Rain Gauges, Ultrasonic Anemometers, Pyranometers, Albedometers, Netradiometers, Pyrgeometers, Photometrers, Radiometers. Water Analysis page 337 to 408 Portable and bench-top instruments fort pH, conductivity and dissolved oxygen, Electrodes and probes pH and conductivity transmitters, Electrodes and probes, Turbidimeter.

- HD 2107.1, HD 2107.2, HD 2127.1, HD 2127.2, HD 2307.0 Portable instruments for Pt100 probes

pag. 6

- Probes with Pt100 sensor

pag. 9

- HD 2108.1, HD 2108.2, HD 2128.1, HD 2128.2, HD 2328.0 Portable instruments for Thermocouple probes

pag. 14

- Thermocouple Probes

pag. 17

- HD 2178.1, HD 2178.2

pag. 22

- HD 32.7

pag. 24

- HD 32.8.8 - HD 32.8.16

pag. 25

- HD 788TR1, HD 788TR1.I, HD 786TR1, HD 988TR1, HD 988TR1.I, HD 988TR2

pag. 27

- HD 688T

pag. 29

- HD 2047 Pt100 simulator

pag. 30

- HD 778TR1, HD 978TR1, HD 978TR2, HD 778 T CAL

pag. 32

- HD 978TR3, HD 978TR4, HD 978TR5, HD 978TR6 Configurable 4รท20mA or 0รท10Vdc signal amplifiers, converters

pag. 34

- HD 9022, DO 9404 Indicators, Regulators

pag. 36

โ ข Accredited Laboratory SIT Centre 124 in Temperature

pag. 42

Portable instruments for Pt100 probes and Thermocouple probes Data logger with 8 inputs for Pt100 probes Datalogger with 8 or 16 inputs for Thermocouple probes Configurable Pt100 temperature transmitters, output 4รท20mA., HD688T Pt100 sensor opto-isolated transmitter Modular temperature transmitter

Configurable 4รท20mA output temperature transmitters for Thermocouples

Temperature

The qualitative level of our instruments is the result of a continuous evolving of the product itself. This may bring to slight differences between what written in the following manual and the instrument you bought. We cannot completely exclude the presence of errors inside the manual, which we apologise for. Data, images and descriptions included in this manual cannot be enforced legally. We reserve the right to perform modifications and corrections at any time without notice.

Temperature

HD 2107.1 HD 2107.2 HD 2127.1 HD 2127.2

TECHNICAL SPECIFICATIONS OF THE INSTRUMENTS Instrument Dimensions (Length x Width x Height) 185x90x40mm Weight 470g (complete with batteries) Materials ABS, rubber Display 2x4½ digits plus symbols Visible area: 52x42mm Operating conditions Operating temperature Storage temperature Working relative humidity Protection degree Power supply Batteries Autonomy Current consumption with instrument off Main Unit of measurement

L’HD2107.1 and l’HD2107.2 are portable instruments equipped with large LCD display fitted with one input. HD2127.1 and HD2127.2 are instruments fitted with two inputs. They measure temperature by means of immersion, penetration, contact or air probes. Their sensor can be Pt100 with 3 or 4 wires, Pt1000 with 2 wires. Probes are equipped with an automatic recognition module: factory calibration data are stored inside. The instruments HD2107.2 and HD2127.2 are data loggers; they store up to 80.000 samples which can be transferred into a PC connected to the instrument through a multi-standard RS232C serial port and a USB 2.0. It is possible to configure the storage interval, the printing and the baud rate by the menu. All models are equipped with RS232C serial port and are able to transfer the acquired measures, in real time, into a PC or a portable printer. Functions Max, Min and Avg calculate maximum, minimum and average values. Further functions are: REL relative measure, HOLD and automatic switching-off system, excludable. Instruments have IP67 protection degree.

HD2107

Temperature

HD2127

4 Batteries 1.5V type AA 200 hours with 1800mAh alkaline batteries 20μA 12Vdc / 1000mA Output main adapter °C - °F - °K

Security of data stored

Unlimited, independent of battery charge conditions

Time Date and time Accuracy

Schedule in real time 1min/month max drift

Measured values storage model HD2107.2 Type Quantity Storage interval model HD2127.2 Type Quantity Storage interval

HD2107.1, HD2107.2, HD2127.1 E HD2127.2 THERMOMETERS SENSORS: Pt100, Pt1000

-5 … 50°C -25 … 65°C 0 … 90% RH, no condensation IP67

Serial interface RS232C Type Baud rate Data bit Parity Stop bit Flow Control Serial cable length Immediate print interval

2000 pages containing 40 samples each Total of 80000 samples 1s…3600s (1 hour) 2000 pages containing 16 pairs of samples each Total of 32000 samples (channel A + channel B) 1s…3600s (1 hour) RS232C electrically isolated can be set from 1200 to 38400 baud 8 None 1 Xon/Xoff Max 15m 1s … 3600s (1 hour)

USB interface - model HD2107.2, HD2127.2 Type 1.1 - 2.0 electrically isolated Connections Input module for the probes Serial interface and USB Mains adapter

8-pole male DIN45326 connector 8-pole MiniDin connector 2-pole connector (positive at centre)

Measurement of temperature by Instrument Pt100 measurement range -200…+650°C Pt1000 measurement range -200…+650°C Resolution 0.01°C in the range ±199.99°C 0.1°C in the remaining range Instrument Accuracy ±0.01°C Drift after 1 year 0.1°C/year

SWD10

HD2110CSNM

Model

Type

Application field

TP472I

Immersion

-196°C…+500°C

TP472I.0

Immersion

-50°C…+400°C

TP473P

Penetration

-50°C…+400°C

TP473P.0

Penetration

-50°C…+400°C

TP474C

Contact

-50°C…+400°C

TP474C.0

Contact

-50°C…+400°C

TP475A.0

Air

-50°C…+250°C

TP472I.5

Immersion

-50°C…+400°C

TP472I.10

Immersion

-50°C…+400°C

TP49A

Immersion

-70°C…+400°C

TP49AC

Contact

-70°C…+400°C

TP49AP

Penetration

-70°C…+400°C

TP875 Globe-thermometer Ø150mm -30°C…+120°C TP876 Globe-thermometer Ø 50mm -30°C…+120°C TP87 Immersion -50°C…+200°C TP878 For solar panels +5°C…+80°C TP878.1 TP879 For compost -20°C…+120°C

Common features Temperature drift @20°C

Accuracy ±0.25°C (-196°C…+350°C) ±0.4°C (+350°C…+500°C) ±0.25°C (-50°C…+350°C) ±0.4°C (+350°C…+400°C) ±0.25°C (-50°C…+350°C) ±0.4°C (+350°C…+400°C) ±0.25°C (-50°C…+350°C) ±0.4°C (+350°C…+400°C) ±0.3°C (-50°C…+350°C) ±0.4°C (+350°C…+400°C) ±0.3°C (-50°C…+350°C) ±0.4°C (+350°C…+400°C) ±0.3°C (-50°C…+250°C) ±0.3°C (-50°C…+350°C) ±0.4°C (+350°C…+400°C) ±0.30°C (-50°C…+350°C) ±0.4°C (+350°C…+400°C) ±0.25°C (-50°C…+350°C) ±0.4°C (+350°C…+400°C) ±0.25°C (-50°C…+350°C) ±0.4°C (+350°C…+400°C) ±0.25°C (-50°C…+350°C) ±0.4°C (+350°C…+400°C) ±0.25°C ±0.25°C ±0.25°C ±0.25°C ±0.25°C

0.003%/°C

4 wires Pt100 and 2 wires Pt1000 Probes Model TP47.100 TP47.1000

Type 4 wires Pt100 2 wires Pt1000

Common features Temperature drift @20°C Pt100 Pt1000

Application field -50…+400°C -50…+400°C

Probes equipped with SICRAM module TP472I: Immersion probe, Pt100sensor. Stem Ø 3 mm, length 300 mm. Cable 2 meters long. TP472I.0: Immersion probe, Pt100sensor. Stem Ø 3 mm, length 230 mm. Cable 2 meters long. TP473P: Penetration probe, Pt100sensor. Stem Ø 4mm, length 150 mm. Cable 2 meters long. TP473P.0: Penetration probe, Pt100sensor. Stem Ø 4mm, length 150 mm. Cable 2 meters long. TP474C: Contact probe, Pt100sensor. Stem Ø 4mm, length 230mm, contact surface Ø 5mm. Cable 2 meters long. TP474C.0: Contact probe, Pt100sensor. Stem Ø 4mm, length 230mm, contact surface Ø 5mm. Cable 2 meters long. TP475A.0: Air probe, Pt100sensor. Stem Ø 4mm, length 230mm. Cable 2 meters long. TP472I.5: Immersion probe, Pt100sensor. Stem Ø 6mm, length 500 mm. Cable 2 meters long. TP472I.10: Immersion probe, Pt100sensor. Stem Ø 6mm, length 1,000mm. Cable 2 meters long. TP49A: Immersion probe, Pt100sensor. Stem Ø 2.7mm, length 150mm. Cable 2 meters long. Aluminium handle. TP49AC: Contact probe, Pt100sensor. Stem Ø 4 mm, length 150mm. Cable 2 meters long. Aluminium handle. TP49AP: Penetration probe, Pt100sensor. Stem Ø 2.7mm, length 150mm. Cable 2 meters long. Aluminium handle. TP875: Globe thermometer Ø 150 mm with handle. Cable 2 meters long. TP876: Globe thermometer Ø 50 mm with handle. Cable 2 meters long. TP87: Immersion probe, Pt100sensor. Stem Ø 3 mm, length 70 mm. Cable 2 meters long. TP878: Contact probe for solar panels. Cable 2 meters long. TP878.1: Contact probe for solar panels. Cable 5 meters long TP879: Penetration probe for compost. Stem Ø 8 mm, length 1 meter. Cable 2 meters long.

Accuracy Class A Class A

0.003%/°C 0.005%/°C

PURCHASING CODES HD2107.1: The kit consists of instrument HD2107.1, 4 per 1.5V alkaline Batteries, instruction manual, case and DeltaLog9 software. Probes and cables have to be ordered separately. HD2107.2: The kit consists of instrument HD2107.2 data logger, 4 per 1.5V alkaline Batteries, instruction manual, case and DeltaLog9 software. Probes and cables have to be ordered separately. HD2127.1: The kit consists of instrument HD2127.1, 4 per 1.5V alkaline Batteries, instruction manual, case and DeltaLog9 software. Probes and cables have to be ordered separately. HD2127.2: The kit consists of instrument HD2127.2 data logger, 4 per 1.5V alkaline Batteries, instruction manual, case and DeltaLog9 software. Probes and cables have to be ordered separately. HD2110CSNM: 8-pole connection cable MiniDin - Sub D 9-pole female for RS232C. C.206: Cable for instruments of the series HD21…1 and .2 to connect directly to USB input of PC. HD2101/USB: Connection cable USB 2.0 connector type A - 8-pole MiniDin. DeltaLog9: Software for download and management of the data on a PC using Windows 98 to XP and Vista operating systems. SWD10: Stabilized power supply at 230Vac/12Vdc-300mA-1000mA mains voltage. HD40.1: Upon request, portable, serial input, 24 column thermal printer, 58mm paper width.

TP875

HD40.1

Temperature

TECHNICAL DATA OF PROBES AND MODULES EQUIPPED WITH INSTRUMENT Temperature probes Pt100 sensor with SICRAM module

HD 2307.0

Resolution Accuracy Drift after 1 year

0.1°C ±0.05°C 0.1°C/year

TECHNICAL SPECIFICATIONS OF PROBES AND MODULES EQUIPPED WITH INSTRUMENT Temperature probes Pt100 sensor with SICRAM module Model

Type

Application field

TP472I

Immersion

-196°C…+500°C

TP49AP

Penetration

-70°C…+400°C

TP875 TP876 TP87 TP878 TP878.1 TP879

Globe-thermometer Ø150mm Globe-thermometer Ø 50mm Immersion

-30°C…+120°C -30°C…+120°C -50°C…+200°C

TP472I.0

Immersion

-50°C…+400°C

TP473P

Penetration

-50°C…+400°C

TP473P.0

Penetration

-50°C…+400°C

TP474C

Contact

-50°C…+400°C

TP474C.0

Contact

-50°C…+400°C

TP475A.0

Air

-50°C…+250°C

TP472I.5

Immersion

-50°C…+400°C

TP472I.10

Immersion

-50°C…+400°C

TP49A

Immersion

-70°C…+400°C

TP49AC

Contact

-70°C…+400°C

For solar panels

+5°C…+80°C

±0.25°C

For compost

-20°C…+120°C

±0.25°C

Common features Temperature drift @20°C

0.003%/°C

4 wires Pt100 and 2 wires Pt1000 Probes Model TP47.100 TP47.1000

HD2307.0 THERMOMETER SENSORS: Pt100, Pt1000 L’HD2307.0 is a portable instrument equipped with large LCD display. It measures temperature by means of immersion, penetration, contact or air probes. Its sensor can be 3 or 4 wires Pt100, Pt1000. Probes are equipped with an automatic recognition module: factory calibration data are stored inside. The Max, Min and Avg function calculate the maximum, minimum or average values. Other functions include: the relative measurement REL, the HOLD function, and the automatic switching-off system, excludable. The instrument has IP67 protection degree. TECHNICAL SPECIFICATIONS OF THE INSTRUMENTS Instrument Dimensions (Length x Width x Height) 140x88x38mm Weight 160g (complete with Batteries) Materials ABS Display 2x4½ digits plus symbols Visible area: 52x42mm Operating conditions Operating temperature Storage temperature Working relative humidity Protection degree

-5 … 50°C -25 … 65°C 0 … 90% RH, no condensation IP67

Power supply Batteries 3 Batteries 1.5V type AA Autonomy 200 hours with 1800mAh alkaline batteries Current consumption with instrument off < 20μA Unit of measurement

°C - °F

Connections Module input for probes

DIN45326 8 poles male Connector

Measurement of temperature by Instrument Pt100 measurement range -200…+650°C Pt1000 measurement range -200…+650°C

Temperature

Type 4 wires Pt100 2 wires Pt1000

Common features Temperature drift @20°C Pt100 Pt1000

Application field -50…+400°C -50…+400°C

Accuracy Class A Class A

0.003%/°C 0.005%/°C

PURCHASING CODES HD2307.0: The kit consists of instrument HD2307.0, 3 per 1.5V alkaline Batteries, instruction manual and case. Probes have to be ordered separately. Probes equipped with SICRAM module TP472I: Immersion probe, Pt100sensor. Stem Ø 3 mm, length 300 mm. Cable 2 meters long. TP472I.0: Immersion probe, Pt100sensor. Stem Ø 3 mm, length 230 mm. Cable 2 meters long. TP473P: Penetration probe, Pt100sensor. Stem Ø 4mm, length 150 mm. Cable 2 meters long. TP473P.0: Penetration probe, Pt100sensor. Stem Ø 4mm, length 150 mm. Cable 2 meters long. TP474C: Contact probe, Pt100sensor. Stem Ø 4mm, length 230mm, contact surface Ø 5mm. Cable 2 meters long. TP474C.0: Contact probe, Pt100sensor. Stem Ø 4mm, length 230mm, contact surface Ø 5mm. Cable 2 meters long. TP475A.0: Air probe, Pt100sensor. Stem Ø 4mm, length 230mm. Cable 2 meters long. TP472I.5: Immersion probe, Pt100sensor. Stem Ø 6mm, length 500 mm. Cable 2 meters long. TP472I.10: Immersion probe, Pt100sensor. Stem Ø 6mm, length 1,000mm. Cable 2 meters long. TP49A: Immersion probe, Pt100sensor. Stem Ø 2.7mm, length 150mm. Cable 2 meters long. Aluminium handle. TP49AC: Contact probe, Pt100sensor. Stem Ø 4 mm, length 150mm. Cable 2 meters long. Aluminium handle. TP49AP: Penetration probe, Pt100sensor. Stem Ø 2.7mm, length 150mm. Cable 2 meters long. Aluminium handle. TP875: Globe thermometer Ø 150 mm with handle. Cable 2 meters long. TP876: Globe thermometer Ø 50 mm with handle. Cable 2 meters long. TP87: Immersion probe, Pt100sensor. Stem Ø 3 mm, length 70 mm. Cable 2 meters long. TP878: Contact probe for solar panels. Cable 2 meters long. TP878.1: Contact probe for solar panels. Cable 5 meters long TP879: Penetration probe for compost. Stem Ø 8 mm, length 1 meter. Cable 2 meters long. Temperature probes without SICRAM module TP47.100: Direct 4 wires Pt100 sensor immersion probe. Stem Ø 3 mm, length 230mm. 4 wires connection cable with connector, 2 meters long. TP47.1000: Pt1000 sensor immersion probe. Stem Ø 3 mm, length 230mm. 2 wires connection cable with connector, 2 meters long. TP47: Only connector for probe connection: direct 3 and 4 wires Pt100, 2 wires Pt1000.

Pt100 PROBES FOR PORTABLE INSTRUMENTS EQUIPPED WITH SICRAM MODULE °C max

τs

TP 472 I

-196 +500

TP 473 P

-50 +400

TP 474 C

-50 +400

TP 472 I.0

-50 +400

TP 473 P.0

-50 +400

TP 474 C.0

-50 +400

DIMENSIONS

USE

Ø3

300

Ø4

150

Ø5 230

Ø3 230

Ø4

150

Temperature

CODE

Ø5 230

TP 475 A.0

-50 +250

12s

TP 472 I.5

-50 +400

TP 472 I.10

-50 +400

Ø4 230

Ø6 500

Ø6 1000

Temperature

Pt100 PROBES FOR PORTABLE INSTRUMENTS EQUIPPED WITH SICRAM MODULE °C max τ s

CODE

DIMENSIONS Ø 2,7

TP 49 A -70 +400 3,5s

150

TP 49 AC -70 +400 5,5s

150

TP 49 AP -70 +400 4s

150

TP 87

USE

Ø4

Ø 2,7

Ø3

-50 +200 3s

TP 878

+5 +80

60s

Contact probe for solar panels. Cable L = 2m.

TP 878.1

+5 +80

60s

Contact probe for solar panels. Cable L = 5m.

1000

TP879

-20 +120 60s

Penetration probe for compost. Cable L = 2m

Ø8 Ø 21

TP 875

-30 +120

TP 876

-30 +120

15s

Globe-thermometer probe for measuring radiant heat ø150 mm. (ISO7243, ISO7726). 4 wires Pt100 Sensor cable L=2m. Equipped with SICRAM module.

15s

Globe-thermometer probe for measuring radiant heat ø50 mm. (ISO7243, ISO7726). 4 wires Pt100 Sensor cable L=2m. Equipped with SICRAM module.

Pt100 / Pt1000 SENSOR PROBES WITH tp 47 MODULE CODE

°C max

τs

-50 +400

DIMENSIONS

TP 47.100 (Pt100) TP 47.1000 (Pt1000)

TP 47

Only connector for connection of probes without SICRAM module: direct 3 and 4 wires Pt100, 2 wires Pt1000.

Temperature

USE

Ø3 230

Pt100 SENSOR PROBES FOR obsoletE INstrumentS CODE

°C max

τs

S 8601 P

-50 +200

3,5s

180

S 8601 PP

-50 +200

150

STS 3

-50 +150

3,5s

180

STS 3/C

-50 +150

STS 3/P

-50 +150

TP 870

-50 +400

TP 870 C

-50 +400

TP 870 P

-50 +400

TP 870 A

-50 +250

12s

DIMENSIONS

USE

Ø 2,7

Ø4

Ø 2,7

Ø5 230

Ø4

Temperature

150

Ø3 230

Ø5 230

Ø4 150

Ø4 230

Temperature

Pt100 SENSOR PROBES FOR OBSOLETE INSTRUMENTS CODE

°C max

τs

TP 871

-50 +200

DIMENSIONS

USE

Ø3 70

Ø6

TP 872/500

500

-50 +400

10s

Ø6

TP 872/1000

1000

TP 873

-50 +500

TP 874

-30 +200

TP 875.1

-30 +120

15s

TP 876.1

-30 +120

15s

TP 877

-200 +400

Ø4 230

Ø2

Globe-thermometer probe for measuring radiant heat ø150 mm. (ISO7243, ISO7726). 4 wires Pt100 sensor cable L=2m.

Globe-thermometer probe for measuring radiant heat ø50 mm. (ISO7243, ISO7726). 4 wires Pt100 sensor cable L=2m.

Ø3 300

1000

TP879.1

-20 +120

60s

Penetration probe for compost 4 wires cable L = 2 m

Ø8 Ø 21

Temperature

Pt100 SENSOR PROBES FOR OBSOLETE INSTRUMENTS °C max

τs

TP 9 A

-70 +400

3,5s

CLASS A

TP 9 AC

-70 +400

5,5s

CLASS A

TP 9 AP

-70 +400

CLASS A

TP 93

-70 +400

3,5s

CLASS 1/3 DIN

TP 93 C

-70 +400

5,5s

CLASS 1/3 DIN

TP 93 P

-70 +400

CLASS 1/3 DIN

TP 932

-70 +200

3,5s

CLASS 1/3 DIN

TP 932 P

-70 +200

CLASS 1/3 DIN

TP 95

-70 +400

3,5s

CLASS 1/5 DIN

TP 95 P

-70 +400

CLASS 1/5 DIN

DIMENSIONS

USE

Ø 2,7 150

Ø4 150

Ø 2,7

150

Ø 2,7 150

Temperature

CODE

Ø4 150

Ø 2,7 150

Ø 2,7 100

Ø 2,7 150

When temperature exceeds 400°C avoid violent impact and thermal shock, as the Pt100 sensor may got irreparably damaged. Temperature

HD 2108.1 HD 2108.2 HD 2128.1 HD 2128.2

HD2108.1

HD2108.2

HD2128.1

TC input:

HD2128.2

Storage capacity

----

76000 samples

----

38000 couples of temperature

PC interface

RS232C

RS232C + USB2.0

RS232C

RS232C + USB2.0

Data logger

YES

A-B function

YES

TECHNICAL SPECIFICATIONS OF THE INSTRUMENTS Instrument Dimensions (Length x Width x Height) 185x90x40mm Weight 470g (complete with Batteries) Materials ABS, rubber Display 2x4½ digits plus symbols Visible area: 52x42mm Operating conditions Operating temperature Storage temperature Working relative humidity Protection degree Power supply Batteries Autonomy Current consumption with instrument off Main

HD 2108.1, HD 2108.2, HD 2128.1, HD2128.2 THERMOCOUPLE THERMOMETERS: K, J, T, N, R, S, B, E The HD2108.1 and HD2108.2 with one input and the HD2128.1 and HD2128.2 with two inputs are portable instruments with a large LCD display. They measure the temperature using immersion, penetration air or contact probes. The sensor may be a thermocouple of type K, J, T, N, R, S, B or E. Instruments HD2108.2 and HD2128.2 are data logger, they store up to 76.000 samples the first and 38.000 couples of values the second. These data can be transferred into a PC connected to the instrument through a multi-standard RS232C serial port and a USB 2.0. It is possible to configure the storage interval, the printing and the baud rate by the menu. All models are equipped with RS232C serial port and are able to transfer the acquired measures, in real time, into a PC or a portable printer. Functions Max, Min and Avg calculate maximum, minimum and average values. Further functions are: REL relative measure, HOLD and automatic switchingoff system, excludable. HD2128.1 and HD2128.2 calculate A-B difference of the temperatures acquired by the two input channels. Instruments have IP67 protection degree.

HD2108

Temperature

HD2128

-5 … 50°C -25 … 65°C 0 … 90% RH, no condensation IP67 4 Batteries 1.5V type AA 200 hours with 1800mAh alkaline batteries 20μA 12Vdc / 1000mA Output main adapter

Unit of measurement

°C - °F - °K - mV - mV*C

Security of data stored

Unlimited, independent of battery charge conditions 1min/month max drift

Time Date and time Accuracy

Schedule in real time 1min/month max drift

Measured values storage Model HD2108.2 Model HD2128.2 Storage interval

2000 pages each one containing 19 samples, 38000 couples of samples 1s … 3600s (1 hour)

Serial interface RS232C Type Baud rate Data bit Parity Stop bit Flow Control Serial cable length Immediate print interval

RS232C electrically isolated can be set from 1200 to 38400 baud 8 None 1 Xon/Xoff Max 15m 1s … 3600s (1 hour)

2000 pages each one containing 38 samples, 76000 samples in total

USB interface - model HD2108.2 and HD2128.2 Type 1.1 - 2.0 electrically isolated Connections Probes input connector Serial interface and USB Mains adapter

2-pole female polarized standard miniature 8-pole MiniDin connector 2-pole connector (positive at centre)

SWD10

HD2110CSNM

Resolution Instrument accuracy Thermocouple K Thermocouple J Thermocouple T Thermocouple N Thermocouple R Thermocouple S Thermocouple B Thermocouple E

0.05°C up to 199.95°C 0.1°C from 200.0°C up to full scale ±0.1°C up to 600°C ±0.2°C over 600°C ±0.05°C up to 400°C ±0.1°C over 400°C ±0.1°C ±0.1°C up to 600°C ±0.2°C over 600°C ±0.25°C ±0.3°C ±0.35°C ±0.1°C up to 300°C ±0.15°C over 300°C

Accuracy is referred to the instrument only; error due to the thermocouple or to the cold junction reference sensor is not included. Temperature drift @20°C 0.02%/°C Drift after 1 year 0.1°C/year Thermocouple probes accuracy: Tolerance of a type of thermocouple corresponds to the maximum acceptable shift from the e.m.f. of any thermocouple of that type, with reference junction at 0°C. The tolerance is expressed in degrees Celsius, preceded by the sign. The percentage tolerance is given by the ratio between the tolerance expressed in degrees Celsius and the measurement junction temperature, multiplied by one hundred. The tolerances refer to the operating temperature expected for the thermocouple, in agreement with the thermo-elements’ diameter. Those thermocouples that comply with the limits for temperatures over 0°C, do not necessarily comply with the limits for ranges below 0°C.

Tolerance classes for thermocouples (reference junction at 0°C) Type of thermocouple Type T Temperature interval Tolerance Temperature interval Tolerance Type E Temperature interval Tolerance Temperature interval Tolerance Type J Temperature interval Tolerance Temperature interval Tolerance Type K, type N Temperature interval Tolerance Temperature interval Tolerance

Tolerance Class 1

Tolerance Class 2

Tolerance Class 3 (1)

from -40 to +125°C ± 0.5°C from 125 to 350°C ± 0.004 · ltr

from -40 to +133°C ± 1°C from 133 to 350°C ± 0.0075 · ltr

from -67 to+40°C ± 1°C from -200 to -67°C ± 0.015 · ltr

from -40 to +375°C ± 1.5°C from 375 to 800°C ± 0.004 · ltr

from -40 to +333°C ± 2.5°C from 333 to 900°C ± 0.0075 · ltr

from -167 to +40°C ± 2.5°C from -200 to -167°C ± 0.015 · ltr

from -40 to +375°C ± 1.5°C from 375 to 750°C ± 0.004 · ltr

from -40 to +333°C ± 2.5°C from 333 to 750°C ± 0.0075 · ltr

from -40 to +375°C ± 1.5°C from 375 to 1000°C ± 0.004 · ltr

from 40 to +333°C ± 2.5°C from 333 to 1200°C ± 0.0075 · ltr

from -167 to +40°C ± 2.5°C from -200 to -167°C ± 0.015 · ltr

from 0 to +600°C ± 1.5°C from 600 to 1600°C ± 0.0025 · ltr

from 600 to 1700 °C ± 0.0025 · ltr

from +600 to +800C + 4°C from 800 to 1700°C ± 0.005 · ltr

from 0 to +1100°C Type R, type S ± 1°C Temperature interval from 1100 to Tolerance 1600°C Temperature interval ± [ 1 + 0.003 Tolerance (t-1 100)] °C Type B Temperature interval Tolerance Temperature interval Tolerance

(1) Materials for thermocouples are generally supplied so to comply with the factory tolerances specified in the table for temperatures over -40°C. However these materials can sometimes not comply with the factory tolerances for the low temperatures reported under Class 3, for thermocouples of T, E, K and N type, when thermocouples have to comply at the same time the limits of Class 3 and Class 1 and/or Class 2.

PURCHASING CODES HD2108.1: The kit consists of one input instrument HD2108.1, 4 per 1.5V alkaline Batteries, instruction manual, case and DeltaLog9 software. Probes and cables have to be ordered separately. HD2108.2: The kit consists of one input instrument HD2108.2, data logger, 4 per 1.5V alkaline Batteries, instruction manual, case and DeltaLog9 software. Probes and cables have to be ordered separately. HD2128.1: The kit consists of two inputs instrument HD2128.1, 4 per 1.5V alkaline Batteries, instruction manual, case and DeltaLog9 software. Probes and cables have to be ordered separately. HD2128.2: The kit consists of two inputs instrument HD2128.2, data logger, 4 per 1.5V alkaline Batteries, instruction manual, case and DeltaLog9 software. Probes and cables have to be ordered separately. HD2110CSNM: 8-pole connection cable MiniDin - Sub D 9-pole female for RS232C. C.206: Cable for instruments of the series HD21…1 and .2 to connect directly to USB input of PC. HD2101/USB: Connection cable USB 2.0 connector type A - 8-pole MiniDin. DeltaLog9: Software for download and management of the data on PC using Windows 98 to XP and Vista operating systems. SWD10: Stabilized power supply at 230Vac/12Vdc-300mA-1000mA mains voltage. HD40.1: Upon request, portable, serial input, 24 column thermal printers, 58mm paper width. Thermocouple probes Any thermocouple probe with standard miniature connector available on the price list can be connected to these instruments. Please see pages from 17 to 21.

HD2101/USB

HD40.1

Temperature

Measurement of temperature by Instrument TC measuring range: K -200…+1370°C TC measuring range: J -100…+750°C TC measuring range: T -200…+400°C TC measuring range: N -200…+1300°C TC measuring range: R +200…+1480°C TC measuring range: S +200…+1480°C TC measuring range: B +200…+1800°C TC measuring range: E -200…+750°C

HD 2328.0

Temperature measure of the instrument TC measuring range: K -200…+1370°C TC measuring range: J -100…+750°C TC measuring range: T -200…+400°C TC measuring range: E -200…+750°C Resolution Instrument accuracy Thermocouple K Thermocouple J Thermocouple T Thermocouple E

0.1°C ±0.1°C up to 600°C ±0.2°C over 600°C ±0.1°C up to 400°C ±0.2°C over 400°C ±0.1°C ±0.1°C up to 300°C ±0.2°C over 300°C

HD2328.0 TWO INPUTS THERMOCOUPLE THERMOMETER HD2328.0 with two inputs is a portable instrument with a large LCD display. It measures temperature by means of immersion, penetration, contact or aria probes. Its sensor can be a K, J, T or E thermocouple type. Functions Max, Min and Avg calculate maximum, minimum and average values. Further functions are: REL relative measure, HOLD and automatic switching-off system. The instrument has IP67 protection degree. TECHNICAL SPECIFICATIONS OF THE INSTRUMENTS Instrument Dimensions 140x88x38mm (Length x Width x Height) Weight 160g (complete with batteries) Materials ABS Display 2x4½ digits plus symbols Visible area: 52x42mm Operating conditions Operating temperature Storage temperature Working relative humidity Protection degree Power supply Batteries Autonomy Current consumption with instrument off

-5 … 50°C -25 … 65°C 0 … 90% RH, no condensation IP67 3 Batteries 1.5V type AA 200 hours with 1800mAh alkaline batteries < 20μA

Unit of measurement

°C - °F

Connections Probes input

2 per 2-pole female polarized standard miniature connector

Temperature

Tolerance Class 1

Tolerance Class 2 Tolerance Class 3 (1)

from -40 to +125°C from -40 to +133°C from -67 to+40°C ± 0.5°C ± 1°C ± 1°C from 125 to 350°C from 133 to 350°C from -200 to -67°C ± 0.004 · ltr ± 0.0075 · ltr ± 0.015 · ltr from -40 to +375°C from -40 to +333°C from -167 to +40°C ± 1.5°C ± 2.5°C ± 2.5°C from 375 to 800°C from 333 to 900°C from -200 to -167°C ± 0.004 · ltr ± 0.0075 · ltr ± 0.015 · ltr from -40 to +375°C from -40 to +333°C ± 1.5°C ± 2.5°C from 375 to 750°C from 333 to 750°C ± 0.004 · ltr ± 0.0075 · ltr

from -40 to +375°C from 40 to +333°C from -167 to+40°C ± 1.5°C ± 2.5°C ± 2.5°C from 375 to 1000°C from 333 to 1200°C from -200 to -167°C ± 0.004 · ltr ± 0.0075 · ltr ± 0.015 · ltr

PURCHASING CODES HD2328.0: The kit consists of two inputs instrument HD2328.0, 3 per 1.5V alkaline Batteries, instruction manual, case. Probes have to be ordered separately. Thermocouple probes Any thermocouple probe with standard miniature connector available on the price list can be connected to these instruments. Please see pages from 17 to 21.

thermocouple PROBES FOR PORTABLE INSTRUMENTS TYPE “K” (CHROMEL - ALUMEL) THERMOCOUPLE PROBES CODE

°C max

τs

TP 741

800

TP 741/1

400

TP 741/2

800

230

TP 742

800

180

TP 742/1

400

TP 742/2

800

TP 743

800

TP 744

400

DIMENSIONS

USE

Ø 1,5 180

Ø 1,5 90

Temperature

Ø 1,5

Ø2

Ø2 90

Ø2 230

Ø3 180

Ø4 180

Temperature

TYPE “K” (CHROMEL - ALUMEL) THERMOCOUPLE PROBES CODE

°C max

τs

TP 745

500

DIMENSIONS

USE

Ø5 180 1

TP 746

250

Ø3

Ø 12

110

TP 750

1000

TP 750.0

800

TP 751

200

TP 754

500

Ø3 500

Ø3 300

Ø2

Ø 15 200

Ø 15

TP 754/9

500

2s 200

TP 755

800

Ø 27 300

Ø 27

TP 755/9

800

2s 300

Temperature

TYPE “K” (CHROMEL - ALUMEL) THERMOCOUPLE PROBES CODE

°C max

τs

DIMENSIONS

USE

Ø 1,6 Ø 1,2

TP 756

200

22 80

MAGNETIC PROBE FOR CONTACT MEASURE ON MAGNETIC METALLIC SURFACES

TP 757

180

Ø 20

30s 100

TP 758

400

TP 758.1

400

Ø4 150

Ø4 90

TP 772

400

Temperature

500mm Ø5

TP 774

250

60 200

TP 776

200

TP 777

200

Ø2 90

Ø1 Ø3 35

Temperature

TYPE “K” (CHROMEL - ALUMEL) THERMOCOUPLE PROBES CODE

°C max

τs

TP 647

300

DIMENSIONS

USE

For SIT calibration up to 300°C. 1m / 2m / 3m / 5m

TP 647/2

300

TP 647/3

300

TP 647/5

300

TP 651

1200

TP 652

1200

TP 655

180

Ø6 1200

Ø6 700

Ø 6 ÷ 25

Ø 3,5

TP 656

200

Ø1

Ø4

TP 656/1

1000

Ø2

500

Ø4

TP 656/2

1000

Ø2

1000

500

TP 657/1

100

TP 658

100

Temperature

Ø5

Ø1

TYPE “K” (CHROMEL - ALUMEL) THERMOCOUPLE PROBES CODE

°C max

τs

TP 659

400

150

TP 660

400

150

TP 661

-60 +50

30s

DIMENSIONS

USE

Ø3

Ø 4,5

L = 2m 85 40

PROBE WITH VELCRO TAPE FOR MEASURES ON PIPES MAX 110 DIAM.

TP 662

110

CM CS

“K” “K”

120s

“K”

Temperature

400

L = 2m

Response time for a 63% variation (τ0.63) Response time τ s is the reaction time of the sensor to a temperature variation, with a variation of the measured signal to a given percentage (63%) of the variation. Response times are referred to: Immersion probes when into water at 100°C. Contact probes when in contact with a metallic surface at 200°C. Air probes at air temperature of 100°C.

Temperature

HD 2178.1 HD 2178.2

Unit of measurement

°C - °F

Security of data stored

Unlimited, independent of battery charge conditions 1min/month max drift

Time Date and time Accuracy

Schedule in real time 1min/month max drift

Measured values storage - model HD2178.2 Type 2000 pages each one containing 40 samples Quantity 80000 samples in total Storage interval 1s … 3600s (1 hour) Serial interface RS232C Type Baud rate Data bit Parity Stop bit Flow Control Serial cable length Immediate print interval

RS232C electrically isolated can be set from 1200 to 38400 baud 8 None 1 Xon/Xoff Max 15m 1s … 3600s (1 hour)

USB interface - model HD2178.2 Type

1.1 - 2.0 electrically isolated

Connections Input for probes Serial and USB interface Mains adapter

8 pole male DIN45326 connector 8-pole MiniDin connector 2-pole connector (positive at centre)

Temperature measurement by instrument - RTD sensors Pt100 Measuring range -200…+650°C Pt1000Measuring range -200…+650°C Resolution 0.1°C Accuracy ±0.05°C Drift after 1 year 0.1°C/year Temperature measurement by instrument - Tc TC measuring range: K -200…+1370°C TC measuring range: J -100…+750°C TC measuring range: T -200…+400°C TC measuring range: N -200…+1300°C TC measuring range: E -200…+750°C

HD2178.1 AND HD2178.2 Pt100 AND TC INPUT THERMOMETERS HD2178.1 and HD2178.2 are portable instruments with a large LCD display. These instruments measure temperature by means of immersion, penetration, contact or air probes with Pt100 or thermocouple probes. You can connect a 3 or 4 wires Pt100 sensor or a 2 wires Pt1000 sensor to B input, a K, J, T, N, E type thermocouple to input A. Probes to B input, a 8-poles DIN45326 connector, are equipped with an automatic detection module, with the factory calibration settings already being memorized inside. A input is equipped with a miniature female polarized connector for thermocouple probes. The instrument HD2178.2 is a data logger; it stores up to 80.000 samples that can be transferred to a PC when connected to the instrument through a multi-standard RS232C serial port and a USB 2.0 port. It is possible to configure the storage interval, the printing and the baud rate by the menu. HD2178.1 and HD2178.2 are equipped with RS232C serial port and are able to transfer the acquired measures, in real time, into a PC or a portable printer. Functions Max, Min and Avg calculate maximum, minimum and average values. Further functions are: REL relative measure, HOLD and automatic switchingoff system, excludable. Instruments have IP67 protection degree. TECHNICAL SPECIFICATIONS OF THE INSTRUMENTS Instrument Dimensions (Length x Width x Height) 185x90x40mm Weight 470g (complete with Batteries) Materials ABS, rubber Display 2x4½ digits plus symbols Visible area: 52x42mm Operating conditions Operating temperature Storage temperature Working relative humidity Protection degree Power supply Batteries Autonomy Current consumption with instrument off Main

Temperature

Resolution Instrument accuracy Thermocouple K Thermocouple J Thermocouple T Thermocouple N Thermocouple E ±0.15°C over 300°C

0.1°C ±0.1°C up to 600°C ±0.2°C over 600°C ±0.05°C up to 400°C ±0.1°C over 400°C ±0.1°C ±0.1°C up to 600°C ±0.2°C over 600°C ±0.1°C up to 300°C

-5 … 50°C -25 … 65°C 0 … 90% RH, no condensation IP67 4 Batteries 1.5V type AA 200 hours with 1800mAh alkaline batteries 20μA 12Vdc / 1000mA Output main adapter

HD2178

SWD10

Type of thermocouple Type T Temperature interval Tolerance Temperature interval Tolerance Type E Temperature interval Tolerance Temperature interval Tolerance Type J Temperature interval Tolerance Temperature interval Tolerance Type K, type N Temperature interval Tolerance Temperature interval Tolerance Type R, type S Temperature interval Tolerance Temperature interval Tolerance Type B Temperature interval Tolerance Temperature interval Tolerance

Tolerance Class 1

Tolerance Class 2

Tolerance Class 3 (1)

from -40 to +125°C ± 0.5°C from 125 to 350°C ± 0.004 · ltr

from -40 to +133°C ± 1°C from 133 to 350°C ± 0.0075 · ltr

from -67 to+40°C ± 1°C from -200 to -67°C ± 0.015 · ltr

from -40 to +375°C ± 1.5°C from 375 to 800°C ± 0.004 · ltr

from -40 to +333°C ± 2.5°C from 333 to 900°C ± 0.0075 · ltr

from -167 to +40°C ± 2.5°C from -200 to -167°C ± 0.015 · ltr

from -40 to +375°C ± 1.5°C from 375 to 750°C ± 0.004 · ltr

from -40 to +333°C ± 2.5°C from 333 to 750°C ± 0.0075 · ltr

from -40 to +375°C ± 1.5°C from 375 to 1000°C ± 0.004 · ltr

from 40 to +333°C ± 2.5°C from 333 to 1200°C ± 0.0075 · ltr

from -167 to +40°C ± 2.5°C from -200 to -167°C ± 0.015 · ltr

from 0 to +1100°C ± 1°C from 1100 to 1600°C ± [ 1 + 0.003 (t-1 100)] °C

from 0 to +600°C ± 1.5°C from 600 to 1600°C ± 0.0025 · ltr

from 600 to 1700 °C ± 0.0025 · ltr

from +600 to +800C + 4°C from 800 to 1700°C ± 0.005 · ltr

TECHNICAL DATA OF PROBES AND MODULES EQUIPPED WITH INSTRUMENT Temperature probes Pt100 sensor with SICRAM module Model

Type

Application field

TP472I

Immersion

-196°C…+500°C

TP472I.0

Immersion

-50°C…+400°C

TP473P

Penetration

-50°C…+400°C

TP473P.0

Penetration

-50°C…+400°C

TP474C

Contact

-50°C…+400°C

TP474C.0

Contact

-50°C…+400°C

TP475A.0

Air

-50°C…+250°C

TP472I.5

Immersion

-50°C…+400°C

TP472I.10

Immersion

-50°C…+400°C

TP49A

Immersion

-70°C…+400°C

TP49AC

Contact

-70°C…+400°C

TP49AP

Penetration

-70°C…+400°C

Common features Temperature drift @20°C

PURCHASING CODES HD2178.1: The kit consists of instrument HD2178.1, 4 per 1.5V alkaline Batteries, instruction manual and case, software DeltaLog9. Probes and cables have to be ordered separately HD2178.2: The kit consists of instrument data logger HD2178.2, 4 per 1.5V alkaline Batteries, instruction manual and case, software DeltaLog9. Probes and cables have to be ordered separately HD2110CSNM: 8-pole connection cable MiniDin - Sub D 9-pole female for RS232C. C.206: Cable for instruments of the series HD21…1 and .2 to connect directly to USB input of PC. HD2101/USB: Connection cable USB 2.0 connector type A - 8-pole MiniDin. DeltaLog9: Software for download and management of the data on PC using Windows 98 to XP and Vista operating systems. SWD10: Stabilized power supply at 230Vac/12Vdc-300mA-1000mA mains voltage. HD40.1: Upon request, portable, serial input, 24 column thermal printer, 58mm paper width. Probes equipped with SICRAM module TP472I: Immersion probe, Pt100sensor. Stem Ø 3 mm, length 300 mm. Cable 2 meters long. TP472I.0: Immersion probe, Pt100sensor. Stem Ø 3 mm, length 230 mm. Cable 2 meters long. TP473P: Penetration probe, Pt100sensor. Stem Ø 4mm, length 150 mm. Cable 2 meters long. TP473P.0: Penetration probe, Pt100sensor. Stem Ø 4mm, length 150 mm. Cable 2 meters long. TP474C: Contact probe, Pt100sensor. Stem Ø 4mm, length 230mm, contact surface Ø 5mm. Cable 2 meters long. TP474C.0: Contact probe, Pt100sensor. Stem Ø 4mm, length 230mm, contact surface Ø 5mm. Cable 2 meters long. TP475A.0: Air probe, Pt100sensor. Stem Ø 4mm, length 230mm. Cable 2 meters long. TP472I.5: Immersion probe, Pt100sensor. Stem Ø 6mm, length 500 mm. Cable 2 meters long. TP472I.10: Immersion probe, Pt100sensor. Stem Ø 6mm, length 1,000mm. Cable 2 meters long. TP49A: Immersion probe, Pt100sensor. Stem Ø 2.7mm, length 150mm. Cable 2 meters long. Aluminium handle. TP49AC: Contact probe, Pt100sensor. Stem Ø 4 mm, length 150mm. Cable 2 meters long. Aluminium handle. TP49AP: Penetration probe, Pt100sensor. Stem Ø 2.7mm, length 150mm. Cable 2 meters long. Aluminium handle. TP875: Globe thermometer Ø 150 mm with handle. Cable 2 meters long. TP876: Globe thermometer Ø 50 mm with handle. Cable 2 meters long. TP87: Immersion probe, Pt100sensor. Stem Ø 3 mm, length 70 mm. Cable 2 meters long. TP878: Contact probe for solar panels. Cable 2 meters long. TP878.1: Contact probe for solar panels. Cable 5 meters long TP879: Penetration probe for compost. Stem Ø 8 mm, length 1 meter. Cable 2 meters long. Temperature probes without SICRAM module TP47.100: Direct 4 wires Pt100 sensor immersion probe. Stem Ø 3 mm, length 230mm. 4 wires connection cable with connector, 2 meters long. TP47.1000: Pt1000 sensor immersion probe. Stem Ø 3 mm, length 230mm. 2 wires connection cable with connector, 2 meters long. TP47: Only connector for probe connection: direct 3 and 4 wires Pt100, 2 wires Pt1000. Thermocouple probes Any thermocouple probe with standard miniature connector available on the price list can be connected to these instruments. Please see pages from 17 to 21.

±0.25°C ±0.25°C

0.003%/°C

4 wires Pt100 and 2 wires Pt1000 Probes Model TP47.100 TP47.1000

Type 4 wires Pt100 2 wires Pt1000

Common features Temperature drift @20°C Pt100 Pt1000

Application field -50…+400°C -50…+400°C

Accuracy Class A Class A

0.003%/°C 0.005%/°C

Temperature

Tolerance classes for thermocouples (reference junction at 0°C)

HD 32.7 HD 32.8.8 HD 32.8.16

HD32.7 - HD32.8.8 - HD32.8.16 DATALOGGER HD32.7 8 INPUTS DATA LOGGER FOR pt100 SENSOR PROBES The instrument HD32.7 is a robust 8 inputs data logger for Pt100 sensor temperature probes equipped with SICRAM module. 4 wires Pt100 Probe. • Unit of measurement °C, °F, °K configurable. • Flash memory organized in 64 sections with a total capacity of 96.000 acquisitions for each one of the 8 inputs. Storage can be managed in two ways: - when the available memory is full, data are overwritten by starting from the oldest ones (circular memory), - storage stops when the available memory is full. • Simultaneous display of the 8 inputs. • Maximum, minimum or average of the stored values. • Selectable storage interval: 2, 5, 10, 15, 30 seconds, 1, 2, 5, 10, 15, 20, 30 minutes and 1 hour. • Data logging: instantaneous or postponed, with the possibility of selecting the storage start and end. • Data download: RS232C, 1200...38400 baud or USB 1.1 – 2.0. • DeltaLog9 software for data download and processing. • LCD backlit graphic display 128x64 pixel. • Instrument setup through the keyboard; no connection required to the PC. • Security password for keyboard locking. • Power supply: 4 1.5V alkaline C-BABY type batteries or external power supply 12VDC-1A. • Consumption @6VDC: <60μA when the instrument is off <60μA in sleep mode with 8 probes connected <40mA during data logging with 8 probes connected • Use of the HD32.7 data logger: in the field for machine or equipment measurements, plant or machine testing, production check, oven mapping.

Temperature

TECHNICAL SPECIFICATIONS Number of Inputs 8 DIN 45326 8-poles male connectors. Instrument accuracy when storing

±0.01°C ±1digit (in the range ±199.99°C) ±0.1°C ±1digit in the remaining range

Internal watch accuracy

1min/month max drift

Unit of measurement

°C, °F, °K

Resolution

0.01°C (in the range ±199.99°C) 0.1°C in the remaining range

Measuring range

-200°C … 650°C

Display

Backlit graphic LCD 128x64 pixel.

Keyboard

15 keys, configurable also without PC.

Keyboard locking function

with password.

Memory

divided into 64 blocks.

Memory capacity

96.000 storages for each one of the inputs.

Security of data stored

unlimited

Power supply

4 per 1.5V alkaline Batteries type C-BABY External 12Vdc-1A power supply. Connector, external ∅ 5.5mm, internal ∅ 2.1mm.

Current consumption @6Vdc

Autonomy

<60μA when the instrument is off <60μA in sleep mode with 8 probes connected <40mA during data logging with 8 probes connected 200 hours with 7800mAh alkaline batteries and 8 probes connected

Data download

12 Vdc 1A

RS232C from 1200 to 38400 baud, galvanically isolated. Sub D 9-pole male connector. USB 1.1 – 2.0 galvanically isolated.

USB 1.1 - 2.0

RS232C

Instrument Dimensions (Length x Width x Height) Weight Materials Probes

-5 … 50°C -25 … 65°C 0 … 90% RH no condensation IP64

TECHNICAL SPECIFICATIONS Number of inputs 8 for HD32.8.8 16 for HD32.8.16 Connection

220x180x50 mm 1100 g (complete with batteries) ABS, polycarbonate and aluminium all Delta Ohm Pt100 probes equipped with SICRAM module belonging to the series TP47..., TP49...., TP87 and 4 wires Pt100 sensor probes can be connected. Please see pages 9 and 10. Probes of different form can be supplied upon request.

PURCHASING CODES HD32.7: Instrument Data logger with 8 inputs for temperature Pt100 sensor probes equipped with SICRAM module and 4 wires Pt100 probes. The kit consists of instrument HD32.7, 4 per 1.5Vdc alkaline C-Baby type Batteries, instruction manual, software DeltaLog9 and support and carrying strap. Probes, tripod, carrying case and cables have to be ordered separately. DeltaLog9: Further copy of the software for download and management of data by PC for Windows from 98 to Vista operating systems. Probes for hd32.7 All temperature Pt100 probes equipped with SICRAM module and 4 wires Pt100 sensor probes can be connected to the instrument. Probes of different form can be supplied upon request. Accessories for hd32.7 9CPRS232: Connection cable with Sub D 9-pole female connectors for RS232C (null modem) CP22: Connection cable USB 2.0 connector type A - connector type B. BAG32.2: Carrying case for the HD32.7 instrument and accessories. HD32CS: Support and carrying strap SWD10: 100-240VAC/12VDC-1A stabilized mains power supply VTRAP32: Tripod complete with 6-input head and 5 probe holders code HD3218K HD3218K: Shaft for another probe HD32.8.8 8 INPUTS DATA LOGGER FOR pt100 SENSOR PROBES HD32.8.16 16 inPUTS DATA LOGGER FOr THERMOCOUPLES Instruments HD32.8.8 and HD32.8.16 are two robust data loggers with 8 inputs the first, 16 inputs the second, for K, J, T, N, R, S, B and E type thermocouple with miniature connector temperature probes. • Unit of measurement °C, °F, °K configurable. • Flash memory organized in 64 sections with a total capacity of 800.000 acquisitions to be divided among all the present inputs. Storage can be managed in two ways: - when the available memory is full, data are overwritten by starting from the oldest ones (circular memory), - storage stops when the available memory is full • Simultaneous display of the 8 inputs. • Maximum, minimum or average of the stored values. • Selectable storage interval: 2, 5, 10, 15, 30 seconds, 1, 2, 5, 10, 15, 20, 30 minutes and 1 hour. • Data logging: instantaneous or postponed, with the possibility of selecting the storage start and end. • Data download: RS232C, 1200...38400 baud or USB 1.1 – 2.0. • DeltaLog9 software for data download and processing. • LCD backlit graphic display 128x64 pixel. • Instrument setup through the keyboard; no connection required to the PC. • Security password for keyboard locking. • Power supply: 4 1.5V alkaline C-BABY type batteries, or external power supply 12VDC-1A or by means of the USB port of the PC. • Consumption @6VDC: <60μA when the instrument is off <60μA in sleep mode with 8 probes connected <40mA during data logging with 8 probes connected • Use of data loggers HD32.8.8 and HD32.8.16: in field for measurement campaigns on complex systems with many measurement points, testing facilities, in pharmaceutical and food sectors, ovens mapping, air conditioning centrals etc.

Miniature female socket for thermocouple

Measuring range and accuracy of the instrument Tc: K -200…+1370°C / ±0.1°C up to 600°C ±0.2°C over 600°C Tc: J -100…+750°C / ±0.1°C up to 400°C ±0.2°C over 400°C Tc: T -200…+400°C / ±0.1°C Tc: N -200…+1300°C / ±0.1°C up to 600°C ±0.2°C over 600°C Tc: R +200…+1480°C / ±0.3°C Tc: S +200…+1480°C / ±0.3°C Tc: B +200…+1800°C / ±0.4°C Tc: E -200…+750°C / ±0.1°C up to 300°C ±0.2°C over 300°C Accuracy is referred to the instrument only; error due to the thermocouple or to the cold junction reference sensor is not included. Resolution Drift in temperature @20°C

0.05°C in the range ±199.95°C 0.1°C in the remaining range 0.02%/°C

Drift after 1 year

0.1°C/year

Internal watch accuracy

1min/month max drift

Unit of measurement

°C, °F, °K

Display

LCD backlit graphic display 128x64 pixel.

Keyboard

Temperature

Operating conditions Operating temperature Storage temperature Working relative humidity Protection degree

15 keys; the instruments can be configured also without a PC.

HD 32.8.16

HD 32.8.8

Temperature

Keyboard locking function Memory Memory capacity

with password. divided into 64 blocks up to 800.000 acquisitions to be divided among all the present inputs. For example, when one probe is connected you get 800.000 acquisitions. When 8 probes are connected you get 96.000 acquisitions each probe.

Security of data stored

Unlimited.

Power supply 4 per 1.5V 4 1.5V alkaline C-BABY type batteries External power supply 12VDC-1A. Connector, external ∅ 5.5mm, internal ∅ 2.1mm. Power supply via the PC USB port. Current consumption @6Vdc

<60μA when the instrument is off <60μA in sleep mode with all probes connected <40mA during data logging with all probes

connected Autonomy Data download

200 hours with 7800mAh alkaline batteries and all probes connected

Probes for HD32.8.8 and for HD32.8.16 All thermocouples K, J, T, N, R, S, B and E type temperature probes with miniature standard connector can be connected to the instruments. Probes of different form can be supplied upon request. Accessories for HD32.8.8 and for HD32.8.16 9CPRS232: Connection cable with Sub D 9-pole female connectors for RS232C (null modem) CP22: Connection cable USB 2.0 connector type A - connector type B. BAG32.2: Carrying case for the HD32.7 instrument and accessories. HD32CS: Support and carrying strap SWD10: 100-240VAC/12VDC-1A stabilized mains power supply VTRAP32: Tripod complete with 6-input head and 5 probe holders code HD3218K HD3218K: Shaft for another probe

RS232C from 1200 to 38400 baud, galvanically isolated. Sub D 9-pole male connector. USB 1.1 – 2.0 galvanically isolated.

Operating conditions Operating temperature Storage temperature Working relative humidity Protection degree

-5 … 50°C -25 … 65°C 0 … 90% RH no condensation IP64

Instrument Dimensions (Length x Width x Height) Weight Materials

220x180x50 mm 1100 g (complete with batteries) ABS, polycarbonate and aluminium

Probes

PURCHASING CODES HD32.8.8: Instrument Data logger with 8 inputs for thermocouples K, J, T, N, R, S, B and E type temperature probes. The kit consists of instrument HD32.8.8, 4 per 1.5Vdc alkaline C-Baby type Batteries, instruction manual, software DeltaLog9 and support and carrying strap. Probes, tripod, carrying case and cables have to be ordered separately. HD32.8.16: Instrument Data logger with 16 inputs for thermocouples K, J, T, N, R, S, B and E type temperature probes. The kit consists of instrument HD32.8.8, 4 per 1.5Vdc alkaline C-Baby type Batteries, instruction manual, software DeltaLog9 and support and carrying strap. Probes, tripod, carrying case and cables have to be ordered separately DeltaLog9: Further copy of the software for download and management of data by PC for Windows from 98 to Vista operating systems.

HD32CS

All thermocouples K, J, T, N, R, S, B and E type probes with male miniature connector can be connected. Further to the K probes available on the catalogue from page 17 to 21, Delta Ohm can supply other kind of probes with different forms as well, upon request. SWD10

Temperature

HD 788TR1 HD 788TR1-I HD 786TR1 HD 988TR1 HD 988TR1-I HD 988TR2

convenient 3 digit display (height 10 mm) which allows the display of the measured temperature. Technical data (20°C and 24VDC) HD 788TR1 HD 788TR1-I HD 786TR1 HD 988TR2 HD 988TR1 HD 988TR1-I Pt100 (100Ω at 0°C)

INPUT Sensor Connection

3 (or 2) wires EN 60751, IEC 751 BS 1904 (α=0,00385) <1 mA

Linearization Current into sensor Measuring range

-200…+650°C

Default range Minimum measuring amplitude Influence of the connecting leads Conversion speed

0…100°C 25°C Negligible with coupled lead 2 measurements per second ±0,1°C ±0,1% of the reading (-100…+500°C) ±0,2°C ±0,2% of the reading (-200…+650°C)

Accuracy Sensibility to variations of env. temperature Working temperature

0,01°C/°C 0…70°C

Storage temperature

-40…+80°C

OUTPUT

Resolution Power supply voltage Sensibility to variations of the feeding voltage Vcc

0,4 µA/V RLMax = Vdc-9 => RLMax = 680 Ω @ Vdc = 24 Vdc 0,022

Load resistance

It switches on while programming and when the measured temperature is out of the set range

Red led

4÷20 mA CONFIGURABLE TEMPERATURE TRANSMITTERS FOR Pt100 SENSORS HD 788TR1, HD 788TR1-I, HD 786TR1, HD 988TR1, HD 988TR1-I and HD 988TR2 are 4÷20 mA configurable transmitters with microprocessor for Pt100 Platinum temperature sensor. They convert the temperature variations found with any standard Pt100 sensor (100Ω at 0°C) into a linear current signal with two leads in the field 4÷20 mA. Linearization with a digital technique allows excellent precision and stability to be obtained. User can set the 4÷20 mA output (or 20÷4 mA) in any temperature range within the field -200...+650°C, with a minimum amplitude of 25°C; it may be simply reprogrammed by pressing a key, without any need to regulate jumpers, potentiometers, software, etc. A led indicates any alarm situations (temperature outside the set range, broken or short-circuiting sensor) and assists the user in the programming phase. The 4÷20mA output of models HD788TR1-I and HD988TR1-I is galvanically isolated from the Pt100 input. The transmitters are also protected against inversions of polarity. The HD 788TR1, HD 788TR1-I are specifically designed for installing in type DIN B connecting heads, while the HD 988TR1, HD988TR1-I and HD 988TR2 are suitable for fitting in containers with a 35 mm DIN bar connection. As well as the 4÷20 mA output, the HD 988TR2 has a

°C

-200 -100 -50 -30 -20 -10 0 10 20 30 40 50 60

Tab. 1

Ω

18.52 60.26 80.31 88.22 92.16 96.09 100.00 103.90 107.79 111.67 115.54 119.40 123.24

°C

70 80 90 100 110 120 130 140 150 160 170 180 190

Ω

127.08 130.90 134.71 138.51 142.29 146.07 149.83 153.58 157.33 161.05 164.77 168.48 172.17

°C

200 220 250 280 300 350 400 450 500 550 600 650

Input-Output isolation for models HD 788TR1-I and HD 988TR1-I

Note 1) If the measured temperature T is out of the set range T1…T2 (T1<T2), HD 788TR1, HD 788TR1-I, HD 988TR1, HD 988TR1-I and HD 988TR2 maintain 4 mA for T<T1 and 20 mA for T>T2 for a dead band of 10°C before going into error status at 22 mA. Fig. 2 reports the connection diagrams for the transmitters in the current loop. In order to obtain the maximum precision, the connection to the Pt100 should be performed with 3 wires and with wires having the same diameter so to grant the same impedance in each connection. The symbol RL (load) represents any device in the current loop that is to say an indicator, a controller, a data logger or a recorder.

Ω

175.86 183.19 194.10 204.90 212.05 229.72 247.09 264.18 280.98 297.49 313.71 329.64

500 Vdc

22 20

Iout [mA]

16 12 8 4

-50

-30

-10

100 110

150

Temp. [�°C] Fig. 1 Range 0...100°C, output current according to the temperature function. Temperature

Temperature

4…20 mA (or 20…4 mA) 22 mA in case of incorrect programming or temperature out of range note 1 and Fig. 2 Analogue output: 4 µA 4 µA Display: 0,1°C up to 200°C 1°C over 200°C 7…30Vdc (protection against inversions of polarity)

Output

Programming All transmitters are supplied by default with a range 0…100°C, anyway user can set a different range by using the following accessories: • continuous 7-30 Vdc power source, • Pt100 calibrator or set of precision resistors, • precision ammeter with minimum range 0…25 mA, And by following this procedure: 1. Connect the transmitter to set-up as shown in Fig. 2 and set the Pt100 calibrator at the required temperature suitable for 4 mA (for example, assuming that you want to set the range -50...+200°C, you will set the calibrator to -50°C or equivalently you will connect a resistance of 80,31Ω between terminals 1 and 3 while 1 and 2 shorted). 2. Wait 10 seconds until the measurement becomes settled, then keep pressed the programming key for at least 4 seconds, until the LED flashes once and remains lit. When the key is released the LED flashes. 3. Set the Pt100 calibrator at the required temperature for 20 mA (according to the above example, set the calibrator at +200°C, or alternatively connect 175.86Ω resistance between terminals 1 and 3 with 1 and 2 shorted). 4. Wait 10 seconds until the measurement becomes settled, then press the programming key for at least 4 seconds, until the LED stops flashing. Now release the key and the LED flashes twice. At this point the SET POINT procedure is completed. 5. Verify that the setting complies with the required specifications, setting the calibrator (or connecting the precision resistances) at the values corresponding to 4 and 20 mA and checking the current on the ammeter.

PURCHASING CODES HD 788TR1: 4÷20 mA/20÷4 mA temperature transmitter for 2 or 3 wires Pt100 sensor configurable in the range -200...+650°C with minimum amplitude range 25°C, in a container for DIN B 43760 heads. HD 788TR1-I: 4÷20 mA/20÷4 mA temperature isolated transmitter for 2 or 3 wires Pt100 sensor configurable in the range -200...+650°C with minimum amplitude range 25°C, in a container for DIN B 43760 heads. HD 786TR1: 4÷20 mA/20÷4 mA temperature transmitter for 3 wires Pt100 sensor configurable in the range -200...+650°C with minimum amplitude range 25°C. Suitable for mounting on wall. HD 988TR1: 4÷20 mA/20÷4 mA temperature transmitter for 2 or 3 wires Pt100 sensor configurable in the range -200...+650°C with minimum amplitude range 25°C, in a container for 35 mm DIN bar connection, dimension 1 module. HD 988TR1-I: 4÷20 mA/20÷4 mA temperature isolated transmitter for 2 or 3 wires Pt100 sensor configurable in the range -200...+650°C with minimum amplitude range 25°C, in a container for 35 mm DIN bar connection, dimension 1 module. HD 988TR2: 4÷20 mA/20÷4 mA temperature transmitter for 2 or 3 wires Pt100 sensor configurable in the range -200...+650°C with minimum amplitude range 25°C, in a container for 35 mm DIN bar connection, dimension 2 modules, with 3½ digit LCD, height 10 mm.

The temperature range programming can be performed by using some precision resistances of fixed value that simulate a Pt100 sensor value. For example, the resistance values corresponding to some temperature values are reported (see Tab. 1). 4÷20 mA

PROGRAMMING KEYS

3 2

Vcc

POWER SUPPLY 7...30Vdc

RED LED 1

Vdc

4÷20 mA

Pt100

POWER SUPPLY 7...30Vdc

PROGRAMMING KEYS

RED LED RL HD 988TR1

RED LED

4÷20mA

4÷20 mA Pt100 Transmitter Power Supply: 7...30 Vdc Operating Temp.: 0...70°C Range: 0...100°C

Fig. 2 Wiring diagram of the transmitters.

RS232

(OPTIONAL)

Pt100

Fig. 4

PROGRAMMING KEYS

Fig. 5

20.5°C

1200

HD 988TR2 4÷20 mA Pt100 Transmitter

800

4÷20mA

600

RED LED

400

200

PROGRAMMING KEYS

5 4÷20 mA

RL mA

Vcc

Pt100

4÷20 mA

RLMAX [ohm]

1000

mA Vdc

Vdc [V] Fig. 3 Load with relation to the feeding voltage.

Temperature

Fig. 6

HD 688T

POWER SUPPLY: Input voltage: Linearity: Zero drift: Full scale drift:

12÷24 V ± 10%, 65 mA 0,2% 0,02%/°C referred to full scale 0,02%/°C referred to applied signal 0,3 seconds at 63% of final value 1 second at 99,9% of final value 3kV at 50 Hz for 1 minute -10°C...+50°C (it is the maximum temperature electronics can operate in)

Response time: Insulation: Operating Temperature:

Variation of jumper connections according to the output measuring range, relative retouch trimmers for start of scale and full scale.

1 2 3 4 5 1 2 3 4 5 1 2 3 4 5

Output

-50 ÷ 50°C 0 ÷ 50°C 0 ÷100°C 0 ÷200°C 0 ÷400°C -50 ÷ 50°C 0 ÷ 50°C 0 ÷100°C 0 ÷200°C 0 ÷400°C -50 ÷ 50°C 0 ÷ 50°C 0 ÷100°C 0 ÷200°C 0 ÷400°C

0÷10Vcc 0÷10Vcc 0÷10Vcc 0÷10Vcc 0÷10Vcc 0÷20mA 0÷20mA 0÷20mA 0÷20mA 0÷20mA 4÷20mA 4÷20mA 4÷20mA 4÷20mA 4÷20mA

Setup of jumper connections

TRIMMER*

A B C D E A B C D E A B C D E

A A A A A B B B B B B B B B B

A A A A A A A A A A B B B B B

Start of scale RR1 RR1 RR1 RR1 RR1 RR1 RR1 RR1 RR1 RR1 RR1 RR1 RR1 RR1 RR1

End of scale RR2 RR2 RR2 RR2 RR2 RR2 RR2 RR2 RR2 RR2 RR2 RR2 RR2 RR2 RR2

* Multi-turn trimmers RR1 RR2 are needed for slight calibration adjustments of start of scale and full scale. If not strictly necessary it is advisable not to operate them, calibration being already carried out in the laboratory. Setup of connection terminals, jumper connections of output and range configuration, retouch trimmers of scale beginning and full scale. Pt100

HD 688T MODULAR TEMPERATURE TRANSMITTER hd 688t modular temperature transmitter, Pt100 sensor, with galvanic separation between input/output and power supply Output analogue signal: 0÷20 mA / 4÷20 mA / 0÷10 Vcc. The HD 688T transmitter is made up of the following stages: - input stage including linearization of the curves and equalization of the resistance of the line cable (3 wires) of Pt100, conversion from voltage into frequency; - universal output stage through jumper connection, conversion from frequency into voltage; - power supply stage. The configuration of the measuring range or the output signal can be modified at any time; an outstanding feature is that any variation does not require calibrating the transmitter again.

– + GNDOUT

Pt100 12 11 Pt100 RR1

10 VOUT

IOUT

RR2

12 400 11 10

J1A RR1 J1B

-50...50 0 0...50 12 11 10 0...100 400 0...200 -50...50 0...400 0 0...50 3 400 0...100

J1C RR2 J1D J1A RR1 J1E J1B RR2 J1C J1E J1B

0...200 -50...50 0...400 0...50

J1C

0...100 3

J1D

0...200 24 0...400

J1D J1A

J1E

12 11 10

J2A 8

J3A J2A J3B J2B

0-20

J3A J3B

4 - 20

–

OUT

GND

–

OUT

GND

–

OUT

0-10 V 0-20 mA 4-20 mA 0-10 V 0-20 mA 4-20 mA 0-10 V 0-20 mA 4-20 mA

Pt100 12 11 10

J2B

0-20 VOUT 4 - 20 I 4 OUT

Pt100

24 V

4 J3A J3B

0-20

4 - 20

24 V

Connection diagram

24 V 24 V

24 V

i f i

CONFIGURATION: Pt100 (IEC 751) -50...+50°C / 0...+50°C / 0...+100°C 0...+200°C / 0...+400°C 1 mA

Pt100

VREF i

OUT

0-10 0-20 4-20

f V

VREF

0-10 0-20 4-20

OUT

f V

GND

GND OUT GND

VREF

Block diagram

0÷10Vdc, 0÷20 mA, 4÷20 mA 5 mA 500Ω 0,1Ω, 1MΩ, 1MΩ

62 45

13 25 31

31 13

45 72

25 13

Measuring current: OUTPUT: Output signals: Maximum load: Output impedance:

J2A

Measuring range:

IOUT

12 11 10

– + J2B 8 7 GNDOUT

VOUT

SPECIFICATIONS INPUT: Input signal:

–8 + 7 GNDOUT

GND

90 35 90

Dimensions Temperature

Temperature

Measuring range

HD 2047

Operating modes 1) How to measure DC voltage input The instrument measures positive and negative continuous voltages up to 20V maximum amplitude.. Procedure (see fig.1): • select “input voltage” operating mode by pressing MODE key. The red led corresponding to “READ V” lights up; • connect the wires to the sockets, as reported in fig.1; • select the correct range depending on the voltage, by pressing RANGE key. An OverRange measurement is indicated by a 1 sign, lighted on the display left part: in this case you just press RANGE key to pass to the following measuring range. Note: a) For safety reasons, never apply any voltage superior to 48Vdc to the sockets. b) The instrument only measures continuous voltage. 2) Hot to measure DC current input The instrument measures positive and negative current up to 22mA maximum amplitude. Procedure (see fig.2): • select “input current” operating mode by pressing MODE key. The red led corresponding to “READ mA” lights up;” • connect the wires to the sockets, as reported in fig.2 observing the correct polarity: in order to be read, current must be from the bush + • select the correct range depending on the current, by pressing RANGE key. An OverRange measurement is indicated by a 1 sign, lighted on the display left part: in this case you just press RANGE key to pass to the following measuring range. Note: a) The instrument measures continuous current up to a 22mA maximum amplitude. b) The instrument only measures continuous current. c) The instrument is provided with an internal protection circuit to limit the current within 25mA.

HD 2047 Pt100 SIMULATOR HD 2047 is a portable instrument specially designed for testing and calibrating instruments with Pt100 (100Ω a 0°C) type input and voltage/current outputs such as, for instance, active and passive temperature transmitters, recorders, testers and data loggers, etc HD 2047 simulates up to 24 fixed values of a Pt100 sensor in the range from -100°C up to +500°C, with a 2, 3 or 4 -wire connections. The selection of the value to simulate is via a rotary switch placed on the front of the instrument. Whatever operating mode you choose, the Pt100 output is always active HD 2047 can measure with high accuracy voltage/current outputs of any transmitter connected to the instrument input: -20V...+20V continuous voltage range and 0...22mA continuous current range. Eventually it can also calibrate and test the functioning of a passive transmitter by simulating the temperature input, providing power supply to the transmitter and at the same time reading the current flowing in: all this is performed without external power supply auxiliary. The instrument is equipped with three keys: ON/OFF switches the instrument on and off. Once switched on, HD 2047 is ready for the voltage measurement. MODE selects in cycling the type of operation; by pressing the button in succession, you enable in order: 1. voltage measurement; 2. current measurement; 3. current measurement by 4...20mA loop power supply. RANGE in voltage or current measurement it allows to select the more suitable full range and resolution for the measurement under process: -1.999...+1.999, -19.99...+19.99 e -199.9...+199.9. HD 2047 is internally protected against any kind of connecting error made by the operator: it is highly recommended anyway not to exceed voltage/current limits shown in technical specifications. The battery signal appears on the display in order to indicate that batteries are low and need to be replaced.

Temperature

3) How to calibrate and test passive transmitters The instrument can power a 4...20mA loop, measure the current and simulate 24 fixed values of a Pt100 at the input of a temperature transmitter, with no external power supply required. Procedure (see fig.3): • select “2 WIRE” operating mode by pressing MODE key. The corresponding red led lights up • connect the 4...20mA loop wires to the left sockets, as shown in fig. 3, without changing the correct polarity; the current supplied by HD 2047 is delivered through the positive (+) socket • select the correct range depending on the current, by pressing RANGE key. An OverRange measurement is indicated by a 1 sign, lighted on the display left part: in this case you just press RANGE key to pass to the following measuring range • select the temperature value by turning the rotary switch. Note: a) The maximum amplitude of the output current equals 25mA. b) A 14Vdc voltage is supplied to the current loop. c) In case of 2 or 3-wire connections, do not make jumpers on unused sockets; it is highly recommended to leave them free. 4) How to simulate a Pt100 sensor The instrument can simulate 24 temperature fixed values of a Pt100 sensor (100Ω at 0°C, coefficient α=0.003850) with 2, 3 or 4-wire connections. The selection is made through a rotary switch placed on the front part of the instrument. Procedure: • perform the connection as reported in figures 3, 4 or 5 according to the number of wires; • select the temperature value by turning the rotary switch. Note: a) In case of 2 or 3- is highly recommended to leave them free. b) MODE and RANGE keys have no effects on the resistance selection.. c) The internal protection circuit reduces to approximately 1.2V the drop on resistances: this means the measuring current has a maximum amplitude of 20mA.

TECHNICAL DATA (@ 20°C) GENERAL 4 batteries 1.5V, AA size (the input for the 9Vdc external supplier is provided only upon request)

Power supply Autonomy with 1.5V Batteries and 2250mAh capacity

160 h (in “V READ” and “mA READ” operating mode)

2 WIRE

30 h @ loop current = 12mA (in “2 WIRE” operating mode) The battery sign lights up with a battery voltage of about 3.6V -5...+50°C 0...90%RH (no condensation) 580 g (without Batteries) / 23x70x230 mm

Low batteries signal Operating temperature Operating relative humidity Weight/dimensions CONTINUOUS VOLTAGE MEASURE

mA - V

-1.999V...+1.999V: resolution 1mV -19.99V...+19.99V: resolution 10mV ±1mV: nel range -1.999V...+1.999V ±10mV: nel range -19.99V...+19.99V 1MΩ 48Vdc

Measuring range Accuracy Input resistance Maximum voltage applied to terminals CONTINUOUS CURRENT MEASURE

Fig. 5 Pt100 2-wire Simulator

0.00mA...19.99mA: resolution 10µA Measuring range 0.0...22.0mA: resolution 100µA ±(0.01mA+0.05% of the range): in the range Accuracy 0.00mA...19.99mA ±0.1mA: in the range 0.0mA...22.0mA Shunt resistance 20Ω Overload protection Current limit: 25mA PASSIVE TRANSMITTERS: POWER SUPPLY/ MEASURE 0.00mA...19.99mA: resolution 10µA Measuring range 0.0...22.0mA: resolution 100µA ±(0.01mA+0.05% of the range): in the range Accuracy 0.00mA...19.99mA ±0.1mA: in the range 0.0mA...22.0mA Shunt resistance 20Ω Overload protection Current limit: 25mA Maximum load @20mA 700Ω Applied voltage 14Vdc SIMULATING A Pt100 Pt100 (100Ω a 0°C, α=0.003850, EN60751, IEC751, Type of RTD BS1904) Temperature values 24 fixed values from -100 to +500°C Precision ±0.05% of the simulated value Room temperature effect ±5ppm / °C Maximum power loss 125mW Maximum load current 20mA

3 WIRE

Temperature

mA - V

Fig. 4 Pt100 3-wire Simulator

PURCHASING CODES HD 2047: Pt100 Simulator measures current loop and voltage signals coming from transmitters. The kit consists of instrument equipped with Batteries, 2 connection cables L=600 mm, one is a 4 wires, the other is a 2 wires. Passive transmitter

Active transmitter

Idc

Active transmitter

4 Wire

Idc

Vdc

mA - V

Vdc

mA - V

Current output

Voltage Output

READ

MODE

RANGE

500°C 450°C 400°C 350°C 300°C 250°C 200°C 170°C 150°C 130°C 110°C 100°C

HD2047

ON OFF

Pt100

SIMULATOR

RANGE

500°C 450°C 400°C 350°C 300°C 250°C 200°C 170°C 150°C 130°C 110°C 100°C

2 WIRE mA

-100°C -50°C -30°C -20°C -10°C 0°C 10°C 20°C 40°C 50°C 60°C 80°C

READ

2 WIRE mA

MODE

-100°C -50°C -30°C -20°C -10°C 0°C 10°C 20°C 40°C 50°C 60°C 80°C

HD2047

ON OFF

Pt100

SIMULATOR

READ

500°C 450°C 400°C 350°C 300°C 250°C 200°C 170°C 150°C 130°C 110°C 100°C

mA MODE

Fig. 2 Continuous current measurement

ON OFF -100°C -50°C -30°C -20°C -10°C 0°C 10°C 20°C 40°C 50°C 60°C 80°C

HD2047

Fig. 1 Continuous voltage measurement

2 WIRE

READ

V RANGE

Pt100

SIMULATOR

Fig. 3 Testing a Pt100 input passive transmitter Temperature

HD 778TR1 HD 978TR1 HD 978TR2 HD 778-TCAL

TECHNICAL DATA @ 25°C e 24Vcc INPUT Sensor Connection

HD778TR1 HD978TR1 HD978TR2 Thermocouple type K, J, T and N 2 wires passive transmitter Thermocouple K: -200°C … +1200°C Thermocouple J: -200°C … +800°C Thermocouple T: -200°C … +300°C Thermocouple N: -200°C … +1200°C EN 60584-1-2 ASTM E 230 - ANSI (MC96-1) Tc = K - Range = 0...1000°C 50°C 2 measures per second ±0,04%FS±0,04% of the reading or 0.5°C (the greater of the two values)

Measuring range Linearization Default range Minimum measuring range Conversion speed Accuracy

Operating temperature of the cold -30 … +80°C 0 … +70°C junction Operating temperature -30 … +80°C 0 … +70°C Storage temperature -40...+80°C OUPUT 4...20 mA (or 20...4 mA) two wires Type of ouput (note 1) 22 mA if sensor is broken or not connected 4 μA Display: Resolution 4 μA 0,1°C T<200°C 1°C T>200°C Power voltage 9...30V dc (protection against polarity inversion) Sensitivity to Vdc power voltage 0,4 μA/V variations RLMax = (Vdc-9)/0.022 Load resistance RLMax = 625Ω con Vdc = 24 Vdc Input/output galvanic insulation 50Vdc (verified at 250V) It turns on while programming, when the probe is Red led broken or not connected Heating time 2 minutes

Note 1) If the measured temperature T goes out of the T1...T2 (T1<T2) set range, the transmitters linearly regulate the current for T<T1 and T>T2 for an interval of 10°C. (See the current diagram.) Installation and connection Fig. 1 shows the mechanical dimensions of the HD778TR1 transmitter and highlights the holes of 5 mm diameter for fastening the DIN head and the central hole for the entrance of the wires in the thermocouple. Fig. 1 reports the mechanical dimensions of the HD978TR1 and of the HD978TR2. The width of the HD978TR1 is a DIN (17,5 mm) module, the HD978TR2 is a 2 DIN (35mm) modules. The working temperature should be included in operating temperature declared. Fig. 4 and 5 report the wiring diagrams of the HD778TR1, HD978TR1 and HD978TR2. In order to obtain the maximum precision, the connection to the thermocouple should not exceed 3 meters long. In the diagrams reported, the RL (Load) symbol represents any device introduced in the current loop, that is to say any indicator, controller, data logger or recorder.

4÷20mA CONFIGURABLE TEMPERATURE TRANSMITTERS FOR K-JT-N TYPE THERMOCOUPLE THERMOCOUPLE GENERATOR MANAGED BY PC THROUGH RS232C HD778-TCAL HD 778TR1, HD 978TR1 and HD 978TR2 are 4…20mA two-wired configurable passive transmitters with microprocessor for K, J, T and N type thermocouple sensors. They convert the voltage value generated by the thermocouple into a linear current signal included in the range 4…20mA. The use of digital devices allows obtaining an excellent precision and stability in time. User can set the 4…20mA (or 20…4mA) output into any temperature range in the measuring range included in the measuring range of the single thermocouple with a minimum range of 50°C. The range and type of thermocouple are set by simply using one button. A led indicates the alarm situation (broken or not connected sensor) and it helps user during the programming. Moreover, transmitters are protected against polarity inversions. HD778TR1 is specifically designed to be installed in DIN B type connection heads, HD978TR1 and HD978TR2 are suitable for mounting on 35 mm DIN bars. Beyond 4…20mA output, HD978TR2 has a 3½ digit (Height 10 mm) display which allows displaying the measured temperature.

CHOICE OF TYPE OF THERMOCOUPLE The transmitter accepts four types of thermocouple. The thermocouple set is highlighted by the number of flashes of the led when power is supplied. N° of lad flashes 1 2 3 4

Type ofthermocouple K J T N

Transmitters come with the default set K thermocouple and range 4…20mA = 0…1000°C. HD978TR1

HD978TR2

24 mA 20.15 20

HD778TR1

16 12 8 4 3.85 0

33.0 mm 17.5 mm

35.0 mm

58.0 mm (HD978TR1) 69.0 mm (HD978TR2)

Fig.1 Mechanical dimensions.

Temperature

Iout (mA)

46.0 mm

35.0 mm

Ø 43.0 mm

90.0 mm

Ø 5 mm

Tamb = 0°C

-10

250

500

750

1000 1010

Temp. (°C)

Fig. 2 0… 1000°C current output according to temperature

User can change the thermocouple type and the operating range according to the following procedure. Note: after changing the thermocouple type the operating range should be programmed. HD778TR1 and HD978TR1 Giving power to the transmitter, the led flashes for a number of times equal to the type of thermocouple previously configured. In order to change the setting, remove and reapply supply to the transmitter by pressing the button. This way you enter the programming for choosing the type of thermocouple: if you chose the thermocouple K, the led flashes once. If you release the button and press it again within 10 seconds, the led flashes twice: thermocouple J has been chosen. If you press the button in 10 seconds, the led flashes 3 times: thermocouple T has been chosen. If you press the button in 10 seconds, the led flashes 4 times: thermocouple N has been chosen. If you press the button in 10 seconds again, the led flashes once indicating that you chose thermocouple K again and the cycle re-starts. In order to save the selected type of thermocouple, wait for 15 seconds without touching any key: the transmitter saves the type of thermocouple and exits programming, the led flashes for the number of times equal to the type of thermocouple selected. If you changed the type of thermocouple, you have to re-programme the operating range: see paragraph “Programming the operating range”. HD978TR2 This transmitter has a double dip-switch for selecting the type of thermocouple. The selection must be set before ignition and is acquired when the instrument is on: a change in the dip-switch when the instrument is powered has no effect until the next power cycle. Procedure: when the instrument is off, select the type of thermocouple by setting the switches as shown in the figure below. 1 2 ON

1 2

Tc = K

Tc = J

The HD778-TCAL is supplied with its software. Linked to the HD778-TCAL serial output of a PC, the user can configure the transmitter by following the instructions on the screen. PURCHASING CODES HD778TR1: 4…20mA/20…4mA 2 wire temperature transmitter for K, J, T and N thermocouples, configurable with minimum amplitude range 50°C, in a container for DIN B 43760 heads. HD978TR1: 4…20mA/20…4mA 2 wire temperature transmitter for K, J, T and N thermocouples, configurable with minimum amplitude range 50°C, in a container for 35 mm DIN bar connection, dimension 1 module. HD978TR2: 4…20mA/20…4mA 2 wire temperature transmitter for K, J, T and N thermocouples, configurable with minimum amplitude range 50°C, in a container for 35 mm DIN bar connection dimension 2 modules, with 3½ digit display, height 10 mm.. HD778-TCAL: power generator in the range -60mV…+60mV, regulated by PC through RS232C serial port, DELTALOG7 software for setting K, J, T and N thermocouple transmitters.

ON Tc = T

Tc = N

By powering the transmitter, the led flashes for a number of times equal to the type of thermocouple selected. If you changed the type of thermocouple, you have to re-programme the operating range: see paragraph “Programming the operating range”.

4...20 mA

PROGRAMMING KEYS

OC OU NC RM

E PL

Vdc

THE

Programming of the operating range Transmitters HD778TR1, HD978TR1 and HD978TR2 are supplied by default with K type thermocouple and range 0...1000°C. The user can set a different range according to his requirements with a minimum span of 50°C. The correspondence between the read temperature and the output current can be direct (e.g. 4mA = 0°C and 20mA = 1000°C) or inverse (e.g. 4mA = 1000°C and 20mA = 0°C). Acquire the following tools for programming: • 9…30 Vdc direct current power source, • thermocouple calibrator, • Copper connection cables • Precision ammeter with 0...25 mA minimum range.

Temperature

1 2 ON

Press and hold the button until the led flashes. Release the button. The instrument has acquired the first value of the transmitter working range, the led keeps on flashing. The instrument is now awaiting the second data of the full scale range. Set the calibrator in order to generate a voltage corresponding to the temperature at 20mA. Press and hold the button until the led stops flashing. Release the button and wait 20 seconds, without changing the calibrator’s data, so that the transmitter saves the calibraton data and is ready for working normally. The operation ends with a flashing of the led. The instrument has acquired the second point corresponding to the range you want to set and is working normally. The minimum value accepted by the instrument span is 50°C. If the user tries to insert a second value T2 with (T2-T1)<50, after entering the first value T1 of the range, the instrument does not accept it and remains in standby while the led continuous flashing.

RED LED

Thermocouples

POWER SUPPLY

9...30 Vdc

Fig.4 connection diagram of the HD778TR1

POWER SUPPLY 9...30 Vdc

PROGRAMMING SWITCH OC OU NC RM

THE

RED LED

BLACK:

+ Vdc

POWER SUPPLY 9...30 Vdc

RED: +

E PL

In place of the thermocouple calibrator, you can use the Delta Ohm HD778-TCAL: this instrument has to be connected to a serial port of the PC and, by means of a proper software, automates all the steps described below for programming the operating range. If you have a thermocouple calibrator, the steps are: in order to set the type of thermocouple, proceed as described in the paragraph “CHOICE OF THE TYPE OF THERMOCOUPLE”. The voltage values generated by the calibrator must be uncompensated. The setting must be done with the instrument already powered. Set the calibrator with the output of the desired type of thermocouple (K, J, T o N), connect the calibrator to the transmitter thermocouple input according to the polarity. (Pay attention to polarity). Set the calibrator so that it generates the voltage corresponding to the temperature at 4mA, wait for 30 seconds for the voltage to stabilise.

4..20mA

Thermocouple selection 1 2

4...20mA Tc Transmitter Power Supply: 9...30Vdc Operating Temp.: 0...70∞C

HD778-TCAL

RED LED

HD978TR1

4...20 mA

Vdc

Range TcK - 0...1000∞C

PROGRAMMING KEYS

RS232C

mV OUTPUT

4...20 mA

∞C

HD978TR2 4...20mA Thermocouple Transmitter

1000

RED LED 1

PROGRAMMING KEYS

+ VDc

4...20 mA

Thermocouples

Fig.5 connection diagrams of the HD978TR1 and HD978TR2

Temperature

HD 978TR3 HD 978TR4 HD 978TR5 HD 978TR6

TECHNICAL DATA @ 25°C e 24Vdc INPUT Measuring range Default range Minimum measuring range

Input impedance Conversion speed Accuracy Operating temperature Storage temperature Relative humidity OUTPUT Type of output (note 1) Resolution Power supply

HD978TR3 - HD978TR5 HD978TR4 - HD978TR6 -10mV … +60mV configurable 0…20mV 2mV > 1 MOhm 2 measures per second ±0.04%F.S. ±20mV -30 … +70°C -40...+80°C 0…90%RH (without condensation) HD978TR3 - HD978TR5 HD978TR4 - HD978TR6 4...20 mA (or 20...4 mA) 0 … 10Vdc two-wired (0…1Vdc, 0…5Vdc, 1…5Vdc 22 mA, in case of upon request) unconnected input 4 mA 20mV 15…30Vdc (4mA) for the 0 … 10Vdc current output, 9...30Vdc for the 4…20mA current output 10…30Vdc (4mA) for the other outputs

Protection against polarity inversion Sensitivity to Vdc power voltage variations Load resistance

40Vmax 0,4 μA//V

2μA/V

RLMax = (Vdc-9)/0.022 RLMax = 625Ω with Vdc = 24 Vdc

> 10kΩ

Input/output galvanic isolation

50Vdc (verified at 250V) It turns on while programming, when the probe is broken or not connected 2 minutes 0.02% F.S./°C

Red led Heating time Thermal drift

Nota 1: If the measured voltage V goes out of the V1...V2 (V1<V2) set range, the transmitters linearly regulate the output for V<V1 and V>V2 for an interval of 0.1mV. (See the diagrams of the outputs.)

HD 978TR3, HD 978TR4, HD 978TR5, HD 978TR6 SIGNAL CONVERTERS / AMPLIFIERS WITH 4÷20mA OR 0÷10Vdc OUTPUT CONFIGURABLE WITH HD788-TCAL BY PC THROUGH RS232C Configurable signal converters/amplifiers with current or voltage output. HD978TR3 and HD978TR4 are signal converters/amplifiers that can be configured using mV input. The mV input signal range can be configured from -10mV to +60mV through a button, by using the HD778-TCAL simulator and DeltaLog7 software or a gauge with mV output. HD978TR3 has a 4…20mA current output. HD978TR4 has a 0…10Vdc voltage output, with 0…1Vdc, 0…5Vdc and 1…5Vdc outputs available upon request. A led indicates the alarm situation and it helps user during the programming. The instrument is also protected against polarity inversions. Input and output are galvanically isolated between them: this is necessary to eliminate problems due to the mutual influence of the devices originated by disturbs caused by the different earth/ground paths. The instrument is housed in a 2 modules Din (Width 35mm) container with standard connection for 35mm omega bar for the models HD978TR3 and HD978TR4; a wall container for the models HD978TR5 and HD978TR6. The 4…20mA current output stage of HD978TR3 and HD978TR5 is a passive two-wire and it supplies power to the converter through the current loop.

69.0 mm

Fig. 1 Dimensions

Temperature

Tamb = 0°C

10.04 10.0

16 12 8 4 3.85 0

35.0 mm

Programming of the operating range Converters HD978TR3, HD978TR4, HD978TR5 are HD978TR6 are supplied by default with

Output voltage (Vdc)

Output voltage (mA)

46.0 mm

35.0 mm

90.0 mm

24 mA 20.15 20

Installation and connection Fig.1 shows the mechanical dimensions of the HD978TR3 and TR4: the width of the container is a 2 modules DIN (35mm). Fig.5 reports the wiring diagrams of the HD978TR3 and a DeltaOhm pyranometer. Fig.6 indicates the typical connection of the HD978TR4. In order to obtain the maximum precision, the connection to the thermocouple should not exceed 3 meters long and should be performed with a shielded cable. It is also recommended not to pass wiring near cable for power signals (electric motors, induction furnaces, inverter etc.). The working temperature should be included in declared operating temperature. In the diagrams reported, the RL (Load) symbol represents any device introduced in the current loop, that is to say any indicator, controller, data logger or recorder. The two terminals reporting EARTH are connected internally between them and they are necessary to connect the ground terminal coming, for instance, by a pyranometer to the grounded, as you can see from the diagrams. The response curves of the instruments are reported in figures 2 (current output of HD978TR3) and 3 (voltage output of HD978TR4). Fig.7 reports, a san example, the connection to be performed for reading the voltage measured on a shunt DC: the converter assures the galvanic isolation between device and voltage or current output; also configurability allows to obtain the best correlation between read and amplified output voltage. We recommend that you pick up the signal by using a sheltered cable and by connecting the screen (shield) to terminal 9.

-0.1 0

10 15 Input voltage (mV)

20.1

Fig. 2 HD978TR3 continuous current measure

7.5 5.0 2.5 0 -0.04 -0.1 0

5 10 15 Input voltage (mV)

20 20.1

Fig. 3 HD978TR4 continuous voltage measure

RED LED PROGRAMMING SWITCH

RED:+ BLUE:

HD778-TCAL

+ 5

mV OUTPUT

HD978TR3

9 10 11

Vdc mA

BLACK (SHIELD)

POWER SUPPLY 9...30 Vdc

4...20 mA

current) or the HD978TR4 and HD978TR6 (0…10Vdc or 10…0Vdc voltage) by following the instructions on the screen. PURCHASING CODES HD978TR3: Configurable signal converter amplifier with 4÷20mA (20÷4mA) output, for DIN bar Input measuring range –10..+60mV. Default setting 0÷20mV. Minimum measuring range 2mV. HD978TR4: Configurable signal converter amplifier with 0÷10 (10÷0Vdc) output, for DIN bar Input measuring range –10..+60mV. Default setting 0÷20mV. Minimum measuring range 2mV. HD978TR5: Wall mounting configurable signal converter amplifier with 4÷20mA (20÷4mA) output. Input measuring range –10..+60mV. Default setting 0÷20mV. Minimum measuring range 2mV. HD978TR6: Wall mounting configurable signal converter amplifier with 0÷10 (10÷0Vdc) output. Input measuring range –10..+60mV. Default setting 0÷20mV. Minimum measuring range 2mV. HD778-TCAL: power generator in the range -60mV…+60mV, regulated by PC through RS232C serial port, DELTALOG7 software for setting K, J, T and N thermocouple transmitters.

Temperature

The HD778-TCAL is supplied with its software. Linked to the HD778-TCAL serial output of a PC, the user can configure the HD978TR3 and HD978TR5 (4…20mA or 20…4mA

RS232C

range 0…20mV. The user can set a different range according to his requirements with a minimum span of 2mV. The correspondence between the read voltage and current or voltage output can be directed (for ex. 0mV / 4mA and 20mV / 20mA) or reverse (for ex. 20mV / 20mA and 0mV / 4mA). Acquire the following tools for programming: • source constant supply of suitable value (please see the specifications table), • calibrator con mV output, • connection cables, • precision ammeter with 0...25 mA minimum range or 0…10Vdc voltmeter. The setting must be done with the instrument already powered. Set the calibrator so that it generates the voltage corresponding to the output of the initial scale of the converter (4mA or 0V according to the model), by paying attention to polarity. Wait 30 seconds for the voltage to stabilize. Press and hold the button until the led starts flashing. Release the button. The instrument has acquired the first value of the transmitter working range, the led keeps on flashing. The instrument is now awaiting the second data of the full scale range. Set the calibrator in order to generate a voltage corresponding to the output of the full scale (20mA or 10Vcc). Press and hold the button until the led stops flashing. Release the button and wait 20 seconds, without changing the calibrator’s data, so that the converter saves the calibration data and is ready for working normally. The operation ends with a flashing of the led. The instrument has acquired the second point corresponding to the range you want to set and is working normally. The minimum value accepted by the instrument is 2mV. If the user tries to insert a second value V2 with V2-V1 lower than 2mV, after entering the first value first value V1 of the range, the instrument does not accept it and remains in standby while the led continuous flashing. Note: in place of the current/voltage calibrator, you can use the Delta Ohm HD778-TCAL. This instrument has to be connected to a serial port of the PC and, by means of the proper DELTALOG7software, automates all the steps described above for programming the operating range.

1000

RLmax (Ω )

750

500

250

15 20 Vdc (V)

Fig.4 Load resistance according to power supply (output 4…20mA) BLACK (SHIELD)

PYRANOMETER BLUE (-) RED (+)

SHIELD

7 9

11 10

HD978TR3

RED LED RED LED

PROGRAMMING SWITCH

+ Vdc

4...20 mA

HD978TR4

11 10

R SHUNT

11 10

BLACK (SHIELD) WHITE (GROUND)

WHITE (GROUND)

Fig.5 Connection diagram of HD 978TR3 to a pyranometer.

PROGRAMMING SWITCH

HD978TR3 4

+ Vdc

Vdc

4...20 mA

V OUT Vdc

V OUT

Fig.6 Connection diagram of HD978TR4 to a pyranometer

Fig.7 Connection diagram of HD978TR3 and HD978TR4 to a SHUNT.

Temperature

HD 9022

- Functions:

One relay with independent exchange contact for output HI (SP1, SP2). One relay with independent exchange contact for output LO (SP3, SP4). One relay with maximum or minimum alarm closing contact (L max, L min.) ALARM. Resistive relay contacts 3A/220V 50Hz. - Instrument working temperature: (electronic components) 5÷50°C. - Power supply: there is a terminal board for input 12÷24Vac/Vdc or 110÷240Vac/ Vdc (the one or the other; not both kinds of power supply). - Instrument absorption: 5VA. - Minimum power of the supply transformer: 20VA. Function of buttons on the frontal panel ,the LEDs  Numeric display. While programming you see: F0, F1, F2, F3, F4, F5, F6, F7, F8, SP1, SP2, SP3, SP4, S10.  Satus indicator relay HI.  Satus indicator relay LO.  Satus indicator relay ALARM.  Decimal point.





  



HD 9022 CONFIGURABLE MICROPROCESSOR INDICATOR VOLTAGE, CURRENT OR Pt100 INPUT The microprocessor-controlled panel instrument HD 9022 is an indicator with alarm thresholds that may be programmed and configured by the user. It accepts input signals from 2 or 3 wires transmitters both 0÷1V, 0÷10V voltage and 0÷20 mA, 4÷20 mA current or 4 wires Pt100. Configurability is always all present inside the instrument, no add-on cards are required. The choice for the configuration of the input signals is via keypad on the front of the instrument. The dimensions of the instrument are 96x48 mm, width 145 mm according to DIN 45700. The operating mode of HD 9022 is chosen according to the application and configuring the instrument by the keyboard. In a very easy way it is possible to configure the instrument in a range so to adapt it to changing process requirements. The configuration regards input, field scale, set point and auxiliary outputs.





SEQUENTIAL PROGRAMMING OF WORKING PARAMETERS  PROG Each time you press this button, the program advances one instruction (F0, F1, F2, F3, F4, F5, F6, F7, F8, SP1, SP2, SP3, SP4, S10).  ENTER Pressing the button during programming you receive the value of the selected variable that can be changed with the buttons ▲ ▼; when pressing ENTER you confirm the value stored.  Pressing the button during programming you increase the displayed value; in F2, you move the decimal point to the right. In normal operation it flashes to indicate the value in Volts, mA or Pt100 corresponding to the input; with a second impulse it returns to normal operation.  Pressing the button during programming you decrease the displayed value; in F2, you move the decimal point to the left. In normal operation it flashes to indicate the value in Volts, mA or temperature corresponding to the input; with a second impulse it returns to normal operation. HD 9022 / °� C

ALARM

12 �÷ 24V ~ – 110 �÷ 240V ~ –

R TD/Pt100

HD 788/... HD 988/...

SP AN ZERO 0

+ 4

-5 Vdc (max 10 mA)

RS 232

� 10V) V IN (0 ÷ 5

+15 Vdc (max 22 mA) I IN 4�÷20 mA

Applications Typical applications are the display of signals sent by transmitters which may concern temperature, humidity, pressure, speed, capacity, level, force, etc., for the most varied industrial sectors, operating machines and automated systems. Specifications - Configurable set point from -9999 to +19999. - red leds Indication with seven 1/2 inch segments, - Separate clamp for voltage input 0÷1 / 0÷10V, current input 0÷20 / 4÷20 mA and Pt100 input (-200÷+800°C). - The instrument has an auxiliary power supply: -5 Vdc max 10 mA and +15 Vdc non stabilized max 40 mA for the possible supply of 2-wire transmitters. - RΙIN= 25 Ω, RVIN = 200 kΩ. - Instrument accuracy: ±0.1% Rdg ± 1 Digit. - A/D converter resolution: 0.05 mV/Digit, 1μA/Digit.



HD 9022 / RH

ALARM

T6 5V

12 �÷ 24V ~ – 110 �÷ 240V ~ –

T3 12% T2 33% I RH%

+Vdc

T1 76%

-5 Vdc (max 10 mA) V IN (0 ÷ � 10V)

RS 232

+15 Vdc (max 22 mA)

I IN 4�÷20 mA

Example of connection of 2-wires transmitters, the instrument feeds the transmitter.

Temperature

Press ENTER to confirm. 7) Press PROG and the message F3 appears; press ENTER, with the ▲ ▼ keys, set the voltage, current or Pt100 value (as desired) corresponding to the beginning of the scale S1 for example 0V, 4 mA or 0°C. Press ENTER to confirm. 8) Press PROG and the message F4 appears; press ENTER, with the ▲ ▼ keys, set the numerical value corresponding to the beginning of the scale R1 for example 0°C. Press ENTER to confirm. 9) Press PROG and the message F5 appears; press ENTER, with the ▲ ▼ keys, set the voltage or current value (as selected in point 5) corresponding to the end of the scale S2 for example 10V, 20 mA or 200.0°C. Press ENTER to confirm. 10) Press PROG and the message F6 appears; press ENTER, with the ▲ ▼ keys, set the numerical value corresponding to the end of the scale R2 for example 100°C. Press ENTER to confirm. 11) Press PROG and the message F7 appears; press ENTER, with the ▲ ▼ keys, set the maximum alarm threshold value L max for the Alarm relay for example 110°C. Press ENTER to confirm. 12) Press PROG and the message F8 appears; press ENTER, with the ▲ ▼ keys, set the minimum alarm threshold value L min for the Alarm relay for example -10°C. Press ENTER to confirm. 13) Press PROG and the message SP1 appears; press ENTER, with the ▲ ▼ keys, set the Set value for the first threshold “SET relay HI” for example 40°C. Press ENTER to confirm. 14) Press PROG and the message SP2 appears; press ENTER, with the ▲ ▼ keys, set the Reset value for the first threshold “RESET relay HI” for example 45°C. Press ENTER to confirm.

Varying the configuration To vary a stored parameter at any stage of the program it is sufficient to the step of the program to be changed with the PROG key (F1, F2, F3, etc.). Press ENTER and use the ▲ ▼ keys to modify the parameter previously set; press ENTER to confirm, return to F0 and press ENTER. This simple procedure modifies the desired step of the program. Note If the ENTER, ▲ or ▼ key is pressed independently during operation, the instrument input value (V, mA or °C) flashes on the display. To return to normal operation, press the ▲ ▼ or ENTER key independently again. Error report The instrument indicates an error signal in the following cases: OFL: this appears when the set value of R max is exceeded. -OFL: this appears when the set value of R min is exceeded. E1: this appears when the set points P1 and P2 require a resolution of the A/D converter higher than the one available. E2: this appears when the values of F7 and F8 are inverted. THE MAXIMUM RESOLUTION OF THE CONVERTER IS: 0.05 mV/Digit, 1μA/ Digit. Summary of programming steps

ALARM

L max R2

F6 SP SP

SP SP

3 4

MEASURE

75% 33%

I RH Vcc Vcc I t t RH

�

RH%

RS232C

RHcomp PROGRAM SWITCH

RH%

Pt100

PROGRAM S WITCH

°C

LO 12...24Vac 110...240Vac

+15V I IN

RS232C

INPUT

INPUT mA

5 6 7 8 9 10 11

MEASURE CAL

+15V

ALARM

20 mA 1V 10 V Pt100

L min

S1 12...24Vac 110...240Vac

HD9022 /

(V, mA, Pt100)

HD2008T...

I IN

0 mA 4 mA 0V Pt100

LINE OF CALIBRATION

3 4

HD9022 / %UR ALARM

F4 ALARM

Temperature

0 0.0 0.00 0.000

15) Press PROG and the message SP3 appears; press ENTER, with the ▲ ▼ keys, set the Set value for the second threshold “SET relay LO” for example 50°C. Press ENTER to confirm. 16) Press PROG and the message SP4 appears; press ENTER, with the ▲ ▼ keys, set the reset value for the second relay “RESET relay LO” for example 48°C. Press ENTER to confirm. 17) Press PROG and the message S10 appears. Press ENTER, with the ▲ ▼ keys, set the desired speed of RS232 serial transmission among the following ones: 300, 600, 1200, 2400, 4800, 9600 baud. Press ENTER to confirm. 18) Press PROG and the message F0 appears. AT THIS POINT THE CONFIGURATION OF THE INSTRUMENT IS COMPLETE. 19) Connect the input of the instrument, press the ENTER key and the display will indicate the value corresponding to the input signal.

READING DISPLAY

Configuration of the HD 9022 panel indicator 1) Supply power to the instrument. 2) The instrument performs an internal check, the wording C.E.I. appears for a few seconds followed by a number at random. 3) Press PROG and the message F0 appears 4) Press PROG and the message F1 appears. 5) Press ENTER and the symbol U, A or Pt appears. Using the ▲ ▼ buttons, choose the input for voltage: U, current: A or Pt100: Pt signals. Press ENTER to confirm. 6) Press PROG and the message F2 appears; press ENTER; with the ▲ ▼ keys, set the decimal point in the desired position.

%UR

0 ÷ 1 mA 0 ÷ 10 mA 0 ÷ 16 mA 0 ÷ 20 mA 0 ÷ 5 mA 0 ÷ 10 mA 0 ÷ 20 mA

Input resistance 25 Ω ±�0,1%

INPUT V 0 ÷� 100 mV 0 ÷� 1 V 0 ÷� 5 V 0 ÷� 10 V 1 ÷� 5 V -10V a +10V

Input inpedance 200K Ω ±�0,1%

°C

Programming start. Selects the programming step, F0. Example of connection of HD4917T… transmitter with HD 9022 indicator

Selects the programming step, F1. Selects the programming step, F2. ........

HD 9022 / %UR ALARM

LO 12...24Vac

CAL RH%

CAL °C �

Exit program mode.

MEASURE CAL

GND

I IN

RS232C

75% 33%

3 4 5 RH% GND

6 7 8 9 10 11 12

�C

4...20mA 0...20mA 0...10V

RHcomp

RH%

Allows modification of the variable.

Pt100

RH% � °C

HD 9022 / °C ALARM

24Vac

Modifies the variable on display.

12...24Vac

%UR

Confirms the modification.

°C

Moves to next programming step.

GND I IN

RS232C

Example of connection of HD4817T... transmitter with HD 9022 indicator Temperature

STEP

COMMENT

Exit,by pressing ENTER you exit the programming

Select of the type of input: Voltage, Current, Pt100

Decimal point position

The answers given by the HD 9022 are basically of two types: “Information” and “Data”

LIMITS

U - A - Pt 0 - 0.0 - 0.00 - 0.000

Value of zero scale input (Voltage, Current, °C)

Value of initial scale of the display

0...10,00V, 0...20,00 mA -200,0...+800,0°C -9999...19999 0...10,00V, 0...20,00 mA -200,0...+800,0°C

Value of full scale input (Voltage, Current, °C

Value of full scale input

-9999...19999

Maximum alarm threshold for intervention

-9999...19999

MINIMUM alarm threshold for intervention

-9999...19999

SP1

ON set-point threshold HI

-9999...19999

SP2

OFFset-point threshold HI

-9999...19999

SP3

ON set-point threshold LO

-9999...19999

SP4

OFF set-point threshold LO

-9999...19999

S10

Serial transmission speed

300, 600, 1200, 2400, 4800, 9600

The former allow information on the status and programming of the HD 9022 to be obtained, as well as the diagnosis of the message received; the latter contain data on the two channels at the moment the request is made. It is also possible to make use of the serial line for the complete programming of the HD 9022, with the exception of the data transmission speed which may be set only with the keyboard. The diagnostic replies of the HD 9022 are composed of the following control characters, sent individually (not inserted in the communication frame): -ack- Command executed (ASCII 06) -nak- Incorrect command (ASCII 15H) COMMAND A Sub-command A Type of terminal C Company D Firmware Version E Firmware Date F Serial Number (rd) (wr)

Serial interface RS-232C The HD 9022 is equipped with standard serial interface RS-232C which is available on the SUB D male 9-pin connector. The arrangement of the signals on this connector is as follows: Pin Signal Description 2 TD Datum transmitted by the HD 9022 3 RD Datum received by the HD 9022 5 GND Reference logic mass The transmission parameters with which the instrument is supplied are: - baud rate 9600 baud - parity None - n. bits 8 - stop bit 1 The data transmission speed may be changed by altering the set-up parameter S10 with the keyboard; the possible baud rates are: 9600, 4800, 2400, 1200, 600, 300. The other transmission parameters are fixed. All the messages reaching and leaving the HD 9022 must be inserted in a “Communication frame” with the following structure: <Stx><Record><Etx> Where: <Stx> Start of text (ASCII 02) <Record> constitutes the message <Etx> End of text (ASCII 03) Host commands The structure of the command records is as follows: <Command character> <Sub-command> <Values> Where: <Command character> is characterized by an alphabetic character indicating the set of commands. <Sub-command> is characterized by a character indicating the type of command. <Values> is characterized by ASCII characters that depend on the type of command.

COMMAND M Sub-command 1 2 RESET COMMAND CHANNEL 1 C1F01 x C1F02 x C1F03 xxxx C1F04 xxxx C1F05 xxxx C1F06 xxxx C1F07 xxxx C1F08 xxxx C1F09 xxxx C1F10 xxxx C1F11 xxxx C1F12 xxxx

(wr)

Values HD 9022 DELTA OHM Vxx Rxx dd/mm/yy xxxxxx stxAFxxxxxxetx

Replies ack/nak ack/nak ack/nak ack/nak ack/nak ack/nak

Values Measure Channel 1 Measure Channel 2

Replies ack/nak ack/nak

Values stxRESETetx

Replies ack/nak

Input in Point Start of scale V/I Start of scale End of scale V/I End of scale Energ. Relay HI De-energ. Relay HI Energ. Relay LO De-energ. Relay LO Min Relay Alarm Max Relay Alarm

V/A/Pt 0/1/2/3 -9999...19999 0000...10000 (2000 if I) -9999...19999 0000...10000 (2000 if I) -9999...19999 -9999...19999 -9999...19999 -9999...19999 -9999...19999 -9999...19999

As regards the command just described, a few remarks must be made: - There is no command character. - For the other controls of the type C1F01 etc., the present programming status is supplied for the specific command if only the sequence of the sub-command characters is sent. Ex: StxC1F01Etx Request from Host StxC1F01:1Etx Reply If the sequence of the sub-command characters is followed by a space and then the desired programming value, the programming of the parameter is produced. Ex: StxC1F01 1Etx Command from Host ack / nak Reply StxC1F03 1000Etx Command from Host ack / nak Reply StxC1F03-2000Etx Command from Host ack / nak Reply StxC1F0512000Etx Command from Host ack / nak Reply Note: for programming of the point F03...F12, the value field has fixed length of 5 characters. The first character in the value field may be a space, the minus sign, or the number 1.

V dc ALARM

I OUT

I IN (0/4 ... 20 mA)

Pt100

ALARM

Temperature

ALARM

V IN (0 �÷10V) GND

2 +15V

V IN GND

I IN

HD 2004T current output

Vdc HD 9022

+15V

Connections

V OUT

V OUT HD 9022

1 2 3 4 5 6 7 8 9 RS 232

I IN

-5 Vdc (max 10 mA) +15 Vdc (max 22 mA)

Gnd 1

12 �÷ 24V ~ – 110 �÷ 240V ~ –

ack/nak ack/nak ack/nak ack/nak ack/nak ack/nak ack/nak ack/nak ack/nak ack/nak ack/nak ack/nak

HD 2004T voltage output

Example of connection with HD 9022 indicator, regulator

DO 9404

instrument from the keyboard. With ease you can configure the instrument in the field to adapt to changing process requirements. The configurability regards inputs, extension ladders, set points, alarms and the baud rate. Applications A typical application of the DO 9404 is the display and regulation of signals arriving from passive 2-wire or active 3-wire transmitters, of any physical quantity: temperature, humidity, pressure, speed, level, etc. for a wide variety of industrial sectors and automation.

DO 9404 DUAL REGULATING INDICATOR WITH MICROPROCESSOR CONFIGURATION AND TWO INPUTS, FOR VOLTAGE OR CURRENT The DO double indicator controller 9404 is an instrument for panel with LED 96x96 microprocessor with programmable alarm thresholds and user-configurable. Accepts two-channel input signals from two separate transmitters or transmitters by a double. The transmitters can be 2 wires, passive, or 3 wires, active both in tension 0 to 1 V, 0 to 5 V, 0 to 10 V DC 0 to 20 mA, 4 to 20 mA. Configurability for both input channels is always present in the instrument requires no add-on cards. The choice of configurations for input signals is via the keypad on the front of the instrument. The DO 9404 is equipped with RS232C serial output, the baud rate is configurable from the keyboard, the command is bidirectional, the output connector SUB D 9 pin female. The dimensions of the instrument are in accordance with DIN 45700 96x96 mm, depth 120 mm. The operating mode of the DO 9404 is chosen depending on the application by configuring the

RL1

ALARM

RL2

RL3

RL4

RS 232C GND

IIN2

VIN1 +15V GND -5V IIN1 +15V VIN2

9 8 7 6 5 4 3 2 1

Error report Error signals The instrument gives error signals in the following cases: OFL: appears when the SET value is set higher than the high alarm value (maximum). -OFL: appears when the SET value is set lower than the low alarm value (minimum). E1: appears when a resolution of the AD converter has been asked for that is higher than what is available: THE MAXIMUM AD RESOLUTION IS 0.1mV/digit or 2μA/digit. E2: appears when there is an analog value at input that is lower or higher than that of the instrument: voltage 0 V..+10 V, current 0-20 mA. E3: appears when the values of the alarm thresholds are inverted. E4: reading/writing mistake on the Eeprom. Configuration of the regulating indicator DO 9404 1) Supply power to the instrument: 11÷30 Vac; 11÷40 Vdc. 2) The dual display indicates OFL on both channels (1 and 2) at the first programming, or values depending on previous programming operations. 3) When the PROG key is pressed, the message FO appears alternately on channel 1 or 2. 4) Select which channel (1 or 2) you want to program, for example channel 1. 5) Press the ▲ key, the message F1 appears; confirm with the ENTER key and the symbol A (Ampere = current signal 0÷20 mA, 4÷20 mA) or the symbol U (voltage V = voltage signal 0÷10 V) appears; with the ▲ and ▼ keys, prepare the input for the desired signal, current A or voltage; for example, set A current input, confirm with the ENTER key, then F1 appears. Press the ▲ key and the message F2 appears. 6) Press the ENTER key, four figures 8888 appear with the decimal point placed at random; using the ▲ and ▼ keys, set the decimal point in the desired position, the possible configurations are:

8888 8.8 8.88 8.888

RL5

DO9404

HD 4917T...

12÷24 V It Vdc Vdc RH%

24 V

Example of connection of passive transmitter which sends two current signals (4÷20 mA) to DO 9404

Press the ENTER key to confirm, then the message F2 appears; press the ▲ key and the message F3 appears. 7) Press ENTER , then using the ▲ and ▼ keys set the start of scale value for channel 1, for example -30.0°C; confirm with ENTER , the message F3 appears, press the ▲ key and the message F4 appears. 8) Press the ENTER key, then using the ▲ and ▼ keys set the analog value corresponding to the start of scale in voltage or current, depending on the choice made in point 5, for example 4.00 mA; confirm with ENTER, the message F4 appears, press the ▲ key and the message F5 appears. Temperature

Temperature

Specifications - Set point may be configured from -9999 to +19999 - Indication with 1/2” red LEDS - Separate terminal for each channel for voltage input 0÷10 V and current input 0÷20 mA, 4÷20 mA - On the terminal board an auxiliary power supply is available at -5 Vdc max. 10 mA and +15 Vdc non-stabilized max. 44 mA for the possible feeding of passive 2-wire transmitters - Instrument accuracy ±0.1% Rdg ± 1 digit - A/D converter resolution: 0.05 mV/digit, 1 μA/digit - Functions: Two relays with insulated HI LO exchange contact for channel 1: RL1, RL2 Two relays with insulated HI LO exchange contact for channel 2: RL4, RL5 One relay for the overall maximum and minimum alarms: RL3 Resistive 3A/230 Vac relay contacts - Instrument working temperature: (electronic components) -5°C..50°C - Power supply: 12÷24 ±10% Vac/Vdc.

9) Press ENTER , then using the ▲ and ▼ keys set the full scale value for channel 1, for example 130.0°C; confirm with ENTER , the message F5 appears, press the ▲ key and the message F6 appears. 10) Press the ENTER key, then using the ▲ and ▼ keys set the analog value corresponding to the end of scale in voltage or current, depending on the choice made in point 5, for example 20.00 mA; confirm with ENTER , the message F6 appears, press the ▲ key and the message F7 appears. 11) Press the ENTER key, then using the ▲ and ▼ keys set the SET LO value (closing of contact RL1) for channel 1, for example 0.0°C; confirm with ENTER , the message F7 appears, press the ▲ key and the message F8 appears. 12) Press the ENTER key, then using the ▲ and ▼ keys set the Reset HI value (opening of contact RL1) for channel 1, for example 10.0°C; confirm with ENTER , the message F8 appears, press the ▲ key and the message F9 appears. 13) Press the ENTER key, then using the ▲ and ▼ keys set the SET LO value (closing of contact RL2) for channel 2, for example 20.0°C (control of a refrigerating unit, for example); confirm with ENTER , the message F9 appears, press the ▲ key and the message F10 appears. 14) Press the ENTER key, then using the ▲ and ▼ keys set the Reset HI value (opening of contact RL2) for channel 2, for example 15.0°C (switching off a refrigerating unit, for example); confirm with ENTER , the message F10 appears, press the ▲ key and the message F11 appears. 15) Press the ENTER key, then using the ▲ and ▼ keys set the low ALARM value for the relay RL3, for example -5.0°C; confirm with ENTER , the message F11 appears, press the ▲ key and the message F12 appears. 16) Press the ENTER key, then using the ▲ and ▼ keys set the high ALARM value for the relay RL3, for example 25.0°C; confirm with ENTER , the message F12 appears, press the ▲ key and the message F13 appears. 17) Function F13 is used to select the baud rate for serial transmission; press the ENTER key and a baud rate value appears, then using the ▲ and ▼ keys set the desired rate, choosing one of the following: 300, 600, 1200, 2400, 4800, 9600; the other serial transmission parameters are fixed and cannot be changed; they are: 8 bit No Parity 1 Stop bit Note: the baud rate is the same for both channels. Press ENTER to confirm, press the ▼ key until FO appears indicating the end of programming; press the ENTER key. This operation concludes the programming of channel 1 as described up to this point. - Programming is the same for both channels, 1 and 2; all that has been described for channel 1 also applies to channel 2. - The function of the set and reset relays (close LO contact, open HI contact), of relays RL1 and RL2 or RL4 and RL5, depends on what the process requires. - To alter the parameters it is sufficient to enter the program by pressing the PROG key; when FO appears, choose the channel in which you want to change the parameter, press the ▲ key until the function that you want to change appears, then make the change with the ▲ and ▼ keys; press ENTER to confirm, then return to FO function with the ▼ key, press ENTER thus returning to normal operation. - In normal operation, pressing one of the ▲ or ▼ keys passes from the measurement of the physical quantity to the voltage or current value corresponding to the measurement in progress; this applies to both channels. When one of the or keys is pressed the instrument returns to normal measuring status. - The serial interface is active only during normal operation. - The programming parameters remain in the memory even when the instrument is receiving no power.

ALARM

- The relays are disconnected during programming. Serial interface RS-232C The DO 9404 is equipped with standard serial interface RS-232C which is available on the SUB D female 9-pin connector. The arrangement of the signals on this connector is as follows; Pin 2 3 5

Signal TD RD GND

Description Datum transmitted by the DO 9404 Datum received by the DO 9404 Reference logic mass

The transmission parameters with which the instrument is supplied are: - baud rate 9600 baud - parity None - n. bits 8 - stop bit 1 The data transmission speed may be changed by altering the set-up parameter F13 with the keyboard; the possible baud rates are: 9600, 4800, 1200, 600, 300. The other transmission parameters are fixed. All the messages reaching and leaving the DO 9404 must be inserted in a “Communication frame” with the following structure: <Stx> <Record> <Etx> where: <Stx> Start of text (ASCII 02) <Record> constitutes the message <Etx> End of text (ASCII 03) Host commands The structure of the command records is as follows: <Command character><Sub-command><Values> Where: <Command character> is characterized by an alphabetic character indicating the set of commands. <Sub-command> is characterized by a character indicating the type of command. <Values> is characterized by ASCII characters that depend on the type of command. The replies provided by the DO 9404 are essentially of two types: “Information” and “Data”. The former allow information on the status and programming of the DO 9404 to be obtained, as well as the diagnosis of the message received; the latter contain data on the two channels at the moment the request is made. It is also possible to make use of the serial line for the complete programming of the DO 9404, with the exception of the data transmission speed which may be set only with the keyboard. The diagnostic replies of the DO 9404 are composed of the following control characters, sent individually (not inserted in the communication frame): -ack- Command executed (ASCII 06) -nak- Incorrect command (ASCII 15H)

ALARM

RL2

RL3

RL4

Pt100 RL1

RL2

RL3

RL4

RS 232C GND

IIN2

VIN1 +15V GND -5V IIN1 +15V VIN2

9 8 7 6 5 4 3 2 1

RL5 RL1 1

DO9404

12÷24 V

RS 232C

Temperature transmitter

HD 788TR1 +

4 5

–

GND

24 V

IIN2

VIN1 +15V GND -5V IIN1 +15V VIN2

9 8 7 6 5 4 3 2 1

RL5

DO9404

HD 2717T… 12÷24 � V

It GND RH%

24 V

24V

Pressure transmitter

HD 2004T…

Example of connection of transmitters connected to the DO 9404: -1 temperature transmitter which sends a current signal (4÷20 mA) -1 pressure transmitter which sends a current signal (4÷20 mA) 40

Temperature

Example of powered transmitter connection which sends two current signals (4÷20 mA) to DO 9404

COMMAND A Sub-command Values A Type of terminal C Company D Firmware Version E Firmware Date F Serial number (rd) (wr) xxxxxx

Replies DO 9404 DELTA OHM Vxx Rxx dd/mm/yy AFxxxxxx ack/nak

COMMAND M Sub-command Values 1 Measure Channel 1 2 Measure Channel 2

Replies Measure Channel 1 Measure Channel 2

Values

(wr)

COMMAND Sub-command Values 1 Set-up Channel 1 2 Set-up Channel 2

Replies

Replies Set-up Channel 1 Set-up Channel 2

CHANNEL 1 C1F01 x C1F02 x C1F03 xxxx C1F04 xxxx C1F05 xxxx C1F06 xxxx C1F07 xxxx C1F08 xxxx C1F09 xxxx C1F10 xxxx C1F11 xxxx C1F12 xxxx C1F12 xxxx

Input in Point Start of scale V/I Start of scale End of scale V/I End of scale Energ. Relay 1 De-energ. Relay 1 Energ. Relay 2 De-energ. Relay 2 Min1 Relay 3 Min1 Relay 3 Max1 Relay 3

V/A 0/1/2/3 -9999...19999 0000...10000 (2000 if I) -9999...19999 0000...10000 (2000 if I) -9999...19999 -9999...19999 -9999...19999 -9999...19999 -9999...19999 -9999...19999 0000-9999

ack/nak ack/nak ack/nak ack/nak ack/nak ack/nak ack/nak ack/nak ack/nak ack/nak ack/nak ack/nak ack/nak

CHANNEL 2 C2F01 x C2F02 x C2F03 xxxx C2F04 xxxx C2F05 xxxx C2F06 xxxx C2F07 xxxx C2F08 xxxx C2F09 xxxx C2F10 xxxx C2F11 xxxx C2F12 xxxx

Input in Point Start of scale V/I Start of scale End of scale V/I End of scale Energ. Relay 4 De-energ. Relay 4 Energ. Relay 5 De-energ. Relay 5 Min2 Relay 3 Max2 Relay 3

V/A 0/1/2/3 -9999...19999 0000...10000 (2000 if I) -9999...19999 0000...10000 (2000 if I) -9999...19999 -9999...19999 -9999...19999 -9999...19999 -9999...19999 -9999...19999

ack/nak ack/nak ack/nak ack/nak ack/nak ack/nak ack/nak ack/nak ack/nak ack/nak ack/nak ack/nak

RL1

ALARM

RL2

RL3

RL4

RS 232C GND

IIN2

VIN1 +15V GND -5V IIN1 +15V VIN2

Example: StxC1F01Etx Request from Host StxC1F01:1Etx Reply If the sequence of the sub-command characters is followed by a space and then the desired programming value, the programming of the parameter is produced. Example: StxC1F01 1Etx Command from Host ack / nak Reply Note: for programming of the point F03...F12, the value field has fixed length of 5 characters. The first character in the value field may be a space, the minus sign, or the number one. StxC1F03 1000Etx Request from Host ack / nak Reply StxC1F03-2000Etx Request from Host ack / nak Reply StxC1F0512000Etx Request from Host ack / nak Reply

Temperature

RESET COMMAND RESET

Regarding the command just described, a few remarks must be made: - There is no command character. - In the first two cases (Sub-command 1 and 2) the complete set-up of the DO 9404, for Channel 1 and for Channel 2, is made available in the serial line. - For all the other controls of the type C1F01 etc., the present programming status is supplied for the specific command if only the sequence of the subcommand characters is sent.

RL5

RL1

ALARM

RL2

RL3

RL4

RS 232C

DO9404

HD 2717T 12÷24 V

It GND RH%

GND

24V

IIN2

+15V GND VIN1 -5V IIN1 +15V VIN2

HD 4917T...

RL5 Vdc RH%

DO9404

12÷24 V

+ 9 8 7 6 5 4 3 2 1

24 V

24V

9 8 7 6 5 4 3 2 1

24 V

– 3

1 2

N.C.

HD 3604

Example of powered transmitter connection which sends two voltage signals (0÷10 V) to DO 9404

Example of connection between two transmitters connected to the DO 9404: - 1 transmitter of RH % which sends a signal in current (4÷20 mA) - 1 pressure transmitter which sends a signal in current (4÷20 mA) Temperature

SIT N째 124 Laboratory for temperature

Temperature

Calibration Service in Italy SIT centre n° 124: DELTA OHM s.r.l. Via G. Marconi, 5 35030 CASELLE DI SELVAZZANO (PD) - ITALIA Telefono: +39 049 89 77 150 Telefax: +39 049 63 55 96 E-mail: deltaohm@tin.it URL http://www.deltaohm.com

Quantity

SIT ACCREDITATION TABLE

Instrument to calibrate

Measuring range

Uncertainty (*)

Noble metal thermocouples

-196 °C, -80°C...250°C 250°C … 600°C 600°C ... 1100°C 1100°C...1250°C

0,4 °C 0,3 °C 0,4 °C 1,0 °C 2,0 °C

Common metal thermocouples

-196 °C, -80°C...250°C 250°C … 600°C 600°C ... 1100°C 1100°C...1250°C

0,40 °C 0,40 °C 0,53 °C 1,1 °C 2,2 °C

Resistance thermometers

-196 °C, -80°C...250°C 0°C … 100°C 100°C ... 250°C 250°C...600°C

0,20 °C 0,15 °C 0,05 °C 0,10 °C 0,20 °C

Thermometric chains Indicators for - Noble metal thermocouples

-196 °C, -80°C...250°C 250°C … 600°C 600°C ... 1100°C 1100°C...1250°C

Note

Temperature

Permanent Laboratory

2 2 0,202 + u ris °C 2 2 0,152 + u ris °C 2 2 0,202 + u ris °C

�

2 2 0,502 + uris °C 2 2 1,0 2 + uris °C

Temperature

2 2 0,202 + u ris °C

Thermometric chains Indicators for - Noble metal thermocouples

-196 °C, -80°C...250°C 250°C … 600°C 600°C ... 1100°C 1100°C...1250°C

2 2 0,202 + u ris °C 2 2 0,262 + uris °C 2

2 0,55

2 + uris

�

°C

2 2 1,12 + u ris °C 2 2 0,102 + uris °C

- Resistances

-196°C -80°C ... 250°C 0°C ... 100°C 100°C ... 250°C 250°C ... 600°C

2 2 0,0752 + u ris °C 2 2 0,0252 + u ris °C

�

2 2 0,0502 + uris °C 2 2 0,102 + uris °C

Calibrators-Simulators and Meters - For resistance thermometers - For thermocouples

National and international standards

2 2 0,0252 + u ris °C 2 2 0,102 + uris °C

�

� uris is the resolution of the instrument (1 digit or ½ division) or uncertainty of multimeter to witch it will be connected with

Temperature

- HD 2101.1, HD 2101.2, HD 2301.0

pag. 46

- Combined humidity and temperature probes

pag. 50

- Saturated salt solutions for calibration verification. Sensor protection. How to verify the calibration.

pag. 51

- HD 37AB17D, HD 37B17D

pag. 53

- HD 40.1, HD 40.2

pag. 55

- HD 45..., HD 46...

pag. 56

- HD 48...T...active, HD 49...T...passive

pag. 59

Portable instruments for combined humidity and temperature probes

Data logger for temperature, humidity, CO, CO2 Printing

Transmitter and regulator wall mounting series for air quality. With or without display and relay. Series of temperature and humidity transmitters with analogue or digital output (RS485). With or without display and relay.

Humidity

- HD 2717T...

pag. 63 Series of temperature and humidity transmitters with interchangeable probe. With or without display and relay, analogue and digital output.

- HD 2817T...

pag. 66

- HD 2001T...

pag. 69

- HD 9008TRR, HD 9009TRR, HD 2007

pag. 73

- HD 9817T...

pag. 76

- HD 3817T...

pag. 78

- HD 2601V.1, HD 2601V.2

pag. 81

- HD 4049, HD 5002, HD 404, HD 9022, DO 9404

pag. 83

â&#x20AC;˘ Accredited SIT calibration laboratory no.124 for Humidity

pag. 90

Series of temperature and humidity transmitters with interchangeable probe. Graphic display, relays, analogue and digital output. Temperature, humidity, barometric pressure and air speed transmitters. With display, analogue and digital output. Temperature and humidity transmitter with analogue output, for weather stations. Solar radiation shield. Temperature and humidity transmitters with analogue and digital outputs Absolute humidity transmitters with analogue output. Transmitters and indicators for temperature and humidity with one or two 4Ăˇ20mA inputs Indicators, regulators

Humidity

HD 2101.1 HD 2101.2

INSTRUMENT TECHNICAL CHARACTERISTICS Instrument Dimensions (Length x Width x Height) 185x90x40mm Weight 470g (complete with batteries) Materials ABS, rubber Display 2x4½ digits plus symbols Visible area: 52x42mm Operating conditions Operating temperature Storage temperature Working relative humidity Protection degree

-5…50°C -25…65°C 0…90%RH without condensation IP67

Power Batteries Autonomy Power absorbed with instrument off Mains

4 1.5V type AA batteries 200 hours with 1800mAh alkaline batteries 20μA Output mains adapter 12Vdc / 1000mA

Measuring unit

°C - °F - %RH - g/kg - g/m3 - hPa - J/g - Td Tw - DI - NET

Security of stored data Time Date and time Accuracy

Unlimited, independent of battery charge conditions Schedule in real time 1min/month max drift

Measured values storage - model HD2101.2 Type 2000 pages containing 19 samples each Quantity Total of 38000 samples Storage interval 1s…3600s (1hour) Serial interface RS232C Type Baud rate Data bit Parity Stop bit Flow Control Serial cable length Immediate print interval USB interface - model HD2101.2 Type Connections Input module for the probes Serial interface and USB Mains adapter

HD2101.1 AND HD2101.2 HYGRO-THERMOMETERS The HD2101.1 and HD2101.2 are portable instruments with a large LCD display. They measure relative humidity and temperature using a Pt100 sensor or thermocouple humidity/temperature combined probe. Temperature only is measured by immersion, penetration or contact probes. The sensor can be a Pt100 or Pt1000. When the humidity/temperature combined probe is connected, the instrument calculates and displays the absolute humidity, the dew point, the partial vapour pressure, and the comfort indices. The probes are fitted with an automatic detection module, with the factory calibration data already stored inside. The HD2101.2 is a datalogger. It stores up to 38,000 samples which can be transferred from the instrument connected to a PC via the multi-standard RS232C serial port and USB 2.0. The storing interval, printing, and baud rate can be configured using the menu. The HD2101.1 and HD2101.2 models are fitted with an RS232C serial port and can transfer the acquired measurements in real time to a PC or to a portable printer. The Max, Min and Avg function calculate the maximum, minimum or average values. Other functions include: the relative measurement REL, the HOLD function, and the automatic turning off that can also be excluded. The instruments have IP67 protection degree.

HD2101.2

Humidity

HD2101/USB

RS232C electrically isolated Can be set from 1200 to 38400 baud 8 None 1 Xon/Xoff Max 15m 1s…3600s (1hour) 1.1 - 2.0 electrically isolated 8-pole male DIN45326 connector 8-pole MiniDin connector 2-pole connector (positive at centre)

Model HP472ACR HP572ACR HP473ACR HP474ACR HP475ACR HP475AC1R HP477DCR HP478ACR

Working range Accuracy Temperature sensor %RH Temperature %RH Temp Pt100 0…100%RH -20°C…+80°C ±0.3°C ±1,5%RH (10…90%RH) ±0.5°C Thermocouple K 0…100%RH -20°C…+80°C ±2,5%RH (in the remaining range) Pt100 0…100%RH -20°C…+80°C ±0.3°C Pt100 0…100%RH -40°C…+150°C ±0.3°C Pt100 0…100%RH -40°C…+150°C -40°C…150°C (180°C) ±0.3°C Pt100 0…100%RH -40°C…+150°C ±0.3°C ±(1,5+0,02 times the displayed value) Pt100 0…100%RH -40°C…+150°C ±0.3°C Pt100 0…100%RH -40°C…+150°C ±0.3°C

Common characteristics Relative humidity Sensor Typical capacity @30%RH Sensor operating temperature (depending on model) Measuring range Uncertainty

Resolution Temperature drift @ 20°C Response time %RH at constant temperature

Temperature with sensor Pt100 Resolution Temperature drift @ 20°C

Capacitive 300pF±40pF -20°C…+80°C -40°C…+150°C 0÷100%RH ±1,5%RH (10…90%RH) ±2,5%RH in the remaining range) 0.1%RH 0.02%RH/°C 10sec (10÷80%RH; air speed=2m/s) 0.1°C 0.003%/°C

Temperature with thermocouple K - HP572AC Resolution 0.1°C Temperature drift @ 20°C 0.02%/°C TECHNICAL DATA OF PROBES AND MODULES EQUIPPED WITH INSTRUMENT Temperature probes Pt100 sensor with SICRAM module Model

Type

App. range

TP472I

Immersion

-196°C…+500°C

TP472I.0

Immersion

-50°C…+400°C

TP473P

Penetration

-50°C…+400°C

TP473P.0

Penetration

-50°C…+400°C

TP474C

Contact

-50°C…+400°C

TP474C.0

Contact

-50°C…+400°C

TP475A.0

Air

-50°C…+250°C

TP472I.5

Immersion

-50°C…+400°C

TP472I.10

Immersion

-50°C…+400°C

TP49A

Immersion

-70°C…+400°C

TP49AC

Contact

-70°C…+400°C

TP49AP

Penetration

-70°C…+400°C

TP875 Globethermometer Ø 150mm -30°C…+120°C TP876 Globethermometer Ø 50mm -30°C…+120°C TP87 Immersion -50°C…+200°C TP878 For solar panel +5°C…+80°C TP878.1 TP879 For compost -20°C…+120°C

Common characteristics Temperature drift @ 20°C

0.003%/°C

4 wire Pt100 and 2 wire Pt1000 Probes Model TP47.100 TP47.1000

Type Pt100 4 wires Pt1000 2 wires

Common characteristics Temperature drift @ 20°C Pt100 Pt1000

Application range -50…+400°C -50…+400°C

Accuracy Class A Class A

0.003%/°C 0.005%/°C

HD2101.2K: The kit is composed of the HD2101.2 datalogger, 4 1.5V alkaline batteries, operating manual, case and DeltaLog9 software. The probes and cable must be ordered separately. HD2110CSNM: 8-pole connection cable MiniDin - Sub D 9-pole female for RS232C. HD2101/USB: Connection cable USB 2.0 connector type A - 8-pole MiniDin. DeltaLog9: Software for download and management of the data on PC using Windows 98 to Vista operating systems. SWD10: Stabilized power supply at 230Vac/12Vdc-1000mA mains voltage. HD40.1: On request, portable, serial input, 24 column thermal printer, 58mm paper width. Relative humidity and temperature probes complete with sicram module HP472ACR: %RH and temperature combined probe, dimensions Ø 26x170 mm. 2 m connecting cable. HP572ACR: %RH and temperature combined probe, K thermocouple sensor. Dimensions Ø 26x170 mm. 2 m connecting cable. HP473ACR: %RH and temperature combined probe. Dimensions: handle Ø 26x130 mm, probe Ø 14x110 mm. 2m connecting cable. HP474ACR: %RH and temperature combined probe. Dimensions: handle Ø 26x130 mm, probe Ø 14x210 mm. 2m connecting cable. HP475ACR: %RH and temperature combined probe. 2 m connecting cable. Handle Ø 26x110 mm. Stainless-steel tube Ø 12x560 mm. Terminal tip Ø 13.5x75 mm. HP475AC1R: %RH and temperature combined probe. 2 m connection cable. Handle Ø 26x110 mm. Stainless steel stem Ø 14x480 mm. HP477DCR: %RH and temperature combined sword probe. 2 m connecting cable. Handle Ø 26x110 mm. Probe tube 18x4 mm, length 520 mm. HP478ACR: %RH and temperature combined probe. Dimensions Ø 14x130 mm. 5m connection cable. Temperature PROBES complete with SICRAM module TP472I: Immersion probe, Pt100 sensor. Stem Ø 3 mm, length 300 mm. Cable length 2 metres. TP472I.0: Immersion probe, Pt100 sensor. Stem Ø 3 mm, length 230 mm. Cable length 2 metres. TP473P: Penetration probe, Pt100 sensor. Stem Ø 4mm, length 150 mm. Cable length 2 metres. TP473P.0: Penetration probe, Pt100 sensor. Stem Ø 4mm, length 150 mm. Cable length 2 metres. TP474C: Contact probe, Pt100 sensor. Stem Ø 4mm, length 230mm, contact surface Ø 5mm. Cable length 2 metres. TP474C.0: Contact probe, Pt100 sensor. Stem Ø 4mm, length 230mm, contact surface Ø 5mm. Cable length 2 metres. TP475A.0: Air probe, Pt100 sensor. Stem Ø 4mm, length 230mm. Cable length 2 metres. TP472I.5: Immersion probe, Pt100 sensor. Stem Ø 6mm, length 500 mm. Cable length 2 metres. TP472I.10: Immersion probe, Pt100 sensor. Stem Ø 6mm, length 1000mm. Cable length 2 metres. TP875: Globe thermometer Ø 150mm with handle, cable length 2 metres. TP876: Globe thermometer Ø 50mm with handle. Cable 2 metres. TP87: Immersion probe, Pt100sensor. Stem Ø 3mm, length 70mm. Cable 2 metres. TP878: Contact probe for solar panels. Cable 2 metres TP878.1: Contact probe for solar panels. Cable 5 metres. Temperature probes without SICRAM module TP47.100: 4 wire direct Pt100 sensor immersion probe,. Probe’s stem Ø 3mm, length 230mm. Connection cable 4 wires with connector, length 2 metres. TP47.1000: Pt1000 sensor immersion probe. Probe’s stem Ø 3mm, length 230mm. Connection cable 2 wires with connector, length 2 metres. TP47: Only connector for probe connection: direct 4 wires Pt100 and 2 wires Pt1000. Accessories HD11: Saturated solution at 11.3%RH@20°C for calibration of relative humidity probes, fixing adapter M24x1.5, M12x1. HD33: Saturated solution at 33.0%RH@20°C for calibration of relative humidity probes, fixing adapter M24x1.5, M12x1. HD75: Saturated solution at 75.4%RH@20°C for calibration of relative humidity probes, fixing adapter M24x1.5, M12x1. Protection for humidity probes Ø 26 M24x1,5 P1: Stainless steel grid protection for probes Ø 26 mm. P2: 20μ sintered polyethylene PE protection for probes Ø 26 mm. P3: 20μ sintered bronze protection for probes Ø 26 mm. P4: 20μ sintered PE complete cap for probes Ø 26 mm. Protection for humidity probes Ø 14 M12x1 P5: Stainless steel grid protection for probes Ø 14 mm. P6: 20μm sintered complete protection made of stainless steel for probes Ø 14 mm. P7: 10μm sintered complete protection made of PTFE for probes Ø 14 mm. P8: Stainless steel grid and Pocan protection for probes Ø 14 mm.

ORDER CODES HD2101.1: The kit is composed of the instrument HD2101.1, 4 1.5V alkaline batteries, operating manual, case and DeltaLog9 software. Probes and cable must be ordered separately. Humidity

Humidity

Relative humidity and temperature probes using SICRAM module

HD 2301.0

Measurement of relative humidity by Instrument Measurement range 0…100%RH Resolution 0.1%RH Accuracy ±0.1%RH Drift after 1 year 0.1%RH/year Measurement of temperature by Instrument Pt100 measurement range -200…+650°C Pt1000 measurement range -200…+650°C Resolution 0.1°C Accuracy ±0.1°C Drift after 1 year 0.1°C/year Relative humidity and temperature probes using SICRAM module Working range Accuracy %RH Temperature %RH Temp HP472ACR Pt100 0…100%RH -20°C…+80°C ±0.3°C ±1,5%RH (10…90%RH) HP572ACR Thermocouple K 0…100%RH -20°C…+80°C ±2,5%RH (in the remaining range) ±0.5°C HP473ACR Pt100 0…100%RH -20°C…+80°C ±0.3°C HP474ACR Pt100 0…100%RH -40°C…+150°C ±0.3°C HP475ACR Pt100 0…100%RH -40°C…+150°C -40°C…150°C (180°C) ±0.3°C HP475AC1R Pt100 0…100%RH -40°C…+150°C ±0.3°C ±(1,5+0,02 times the displayed value) HP477DCR Pt100 0…100%RH -40°C…+150°C ±0.3°C HP478ACR Pt100 0…100%RH -40°C…+150°C ±0.3°C Model

Temperature sensor

Common characteristics Relative humidity Sensor Typical capacity @30%RH Sensor operating temperature (depending on model) Measuring range Uncertainty

Resolution Temperature drift @ 20°C Response time %RH at constant temperature

Temperature with sensor Pt100 Resolution Temperature drift @ 20°C

Capacitive 300pF±40pF -20°C…+80°C -40°C…+150°C 0÷100%RH ±1,5%RH (10…90%RH) ±2,5%RH in the remaining range) 0.1%RH 0.02%RH/°C 10sec (10÷80%RH; air speed=2m/s) 0.1°C 0.003%/°C

Temperature with thermocouple K - HP572ACR Resolution 0.1°C Temperature drift @ 20°C 0.02%/°C

HD2301.0 HYGRO-THERMOMETER

TECHNICAL DATA OF PROBES AND MODULES EQUIPPED WITH INSTRUMENT Temperature probes Pt100 sensor with SICRAM module

The HD2301.0 is a portable instrument with a large LCD display. It measures relative humidity and temperature using a Pt100 sensor or thermocouple humidity/ temperature combined probe. Temperature only is measured by immersion, penetration or contact probes. The sensor can be a Pt100 or Pt1000. When the humidity/temperature combined probe is connected, the instrument calculates and displays the absolute humidity, the dew point, the partial vapour pressure. The probes are fitted with an automatic detection module, with the factory calibration data already stored inside. The Max, Min and Avg function calculate the maximum, minimum or average values. Other functions include: the relative measurement REL, the HOLD function, and the automatic turning off that can also be excluded. The instruments have IP67 protection degree. INSTRUMENT TECHNICAL CHARACTERISTICS Instrument Dimensions (Length x Width x Height) 140x88x38mm Weight 160g (complete with batteries) Materials ABS Display 2x4½ digits plus symbols Visible area: 52x42mm Operating conditions Operating temperature Storage temperature Working relative humidity Protection degree

-5…50°C -25…65°C 0…90%RH without condensation IP67

Power Batteries 3 1.5V type AA batteries Autonomy 200 hours with 1800mAh alkaline batteries Power absorbed with instrument off < 20μA Measuring unit

°C - °F - %RH - g/m - Td - hPa

Connections Input module for the probes

8-pole male DIN45326 connector

Humidity

Model

Type

App. range

TP472I

Immersion

-196°C…+500°C

TP472I.0

Immersion

-50°C…+400°C

TP473P

Penetration

-50°C…+400°C

TP473P.0

Penetration

-50°C…+400°C

TP474C

Contact

-50°C…+400°C

TP474C.0

Contact

-50°C…+400°C

TP475A.0

Air

-50°C…+250°C

TP472I.5

Immersion

-50°C…+400°C

TP472I.10

Immersion

-50°C…+400°C

TP49A

Immersion

-70°C…+400°C

TP49AC

Contact

-70°C…+400°C

TP49AP

Penetration

-70°C…+400°C

Common characteristics Temperature drift @ 20°C

0.003%/°C

4 wire Pt100 and 2 wire Pt1000 Probes Model TP47.100 TP47.1000

Type Pt100 4 wires Pt1000 2 wires

Application range -50…+400°C -50…+400°C

Common characteristics Temperature drift @ 20°C Pt100 Pt1000

Accuracy Class A Class A

0.003%/°C 0.005%/°C

ORDER CODES HD2301.0: The kit is composed of the instrument HD2301.0, 3 1.5V alkaline batteries, operating manual, case. Probes and cable must be ordered separately. Relative humidity and temperature probes complete with sicram module HP472ACR: %RH and temperature combined probe, dimensions Ø 26x170 mm. 2 m connecting cable. HP572ACR: %RH and temperature combined probe, K thermocouple sensor. Dimensions Ø 26x170 mm. 2 m connecting cable. HP473ACR: %RH and temperature combined probe. Dimensions: handle Ø 26x130 mm, probe Ø 14x110 mm. 2m connecting cable. HP474ACR: %RH and temperature combined probe. Dimensions: handle Ø 26x130 mm, probe Ø 14x210 mm. 2m connecting cable. HP475ACR: %RH and temperature combined probe. 2 m connecting cable. Handle Ø 26x110 mm. Stainless-steel tube Ø 12x560 mm. Terminal tip Ø 13.5x75 mm. HP475AC1R: %RH and temperature combined probe. 2 m connection cable. Handle Ø 26x110 mm. Stainless steel stern Ø 14x480 mm. HP477DCR: %RH and temperature combined sword probe. 2 m connecting cable. Handle Ø 26x110 mm. Probe tube 18x4 mm, length 520 mm. HP478ACR: %RH and temperature combined probe. Dimensions Ø 14x130 mm. 5m connection cable.

TP876: Globe thermometer Ø 50mm with handle. Cable 2 metres. TP87: Immersion probe, Pt100sensor. Stem Ø 3mm, length 70mm. Cable 2 metres. TP878: Contact probe for solar panels. Cable 2 metres TP878.1: Contact probe for solar panels. Cable 5 metres. Temperature probes without SICRAM module TP47.100: 4 wire direct Pt100 sensor immersion probe,. Probe’s stem Ø 3mm, length 230mm. Connection cable 4 wires with connector, length 2 metres. TP47.1000: Pt1000 sensor immersion probe. Probe’s stem Ø 3mm, length 230mm. Connection cable 2 wires with connector, length 2 metres. TP47: Only connector for probe connection: direct 4 wires Pt100 and 2 wires Pt1000. Accessories HD11: Saturated solution at 11.3%RH@20°C for calibration of relative humidity probes, fixing adapter M24x1.5, M12x1. HD33: Saturated solution at 33.0%RH@20°C for calibration of relative humidity probes, fixing adapter M24x1.5, M12x1. HD75: Saturated solution at 75.4%RH@20°C for calibration of relative humidity probes, fixing adapter M24x1.5, M12x1. Protection for humidity probes Ø 26 M24x1,5 P1: Stainless steel grid protection for probes Ø 26 mm. P2: 20μ sintered polyethylene PE protection for probes Ø 26 mm. P3: 20μ sintered bronze protection for probes Ø 26 mm. P4: 20μ sintered PE complete cap for probes Ø 26 mm. Protection for humidity probes Ø 14 M12x1 P5: Stainless steel grid protection for probes Ø 14 mm. P6: 20μm sintered complete protection made of stainless steel for probes Ø 14 mm. P7: 10μm sintered complete protection made of PTFE for probes Ø 14 mm. P8: Stainless steel grid and Pocan protection for probes Ø 14 mm.

Humidity

Temperature PROBES complete with SICRAM module TP472I: Immersion probe, Pt100 sensor. Stem Ø 3 mm, length 300 mm. Cable length 2 metres. TP472I.0: Immersion probe, Pt100 sensor. Stem Ø 3 mm, length 230 mm. Cable length 2 metres. TP473P: Penetration probe, Pt100 sensor. Stem Ø 4mm, length 150 mm. Cable length 2 metres. TP473P.0: Penetration probe, Pt100 sensor. Stem Ø 4mm, length 150 mm. Cable length 2 metres. TP474C: Contact probe, Pt100 sensor. Stem Ø 4mm, length 230mm, contact surface Ø 5mm. Cable length 2 metres. TP474C.0: Contact probe, Pt100 sensor. Stem Ø 4mm, length 230mm, contact surface Ø 5mm. Cable length 2 metres. TP475A.0: Air probe, Pt100 sensor. Stem Ø 4mm, length 230mm. Cable length 2 metres. TP472I.5: Immersion probe, Pt100 sensor. Stem Ø 6mm, length 500 mm. Cable length 2 metres. TP472I.10: Immersion probe, Pt100 sensor. Stem Ø 6mm, length 1000mm. Cable length 2 metres. TP875: Globe thermometer Ø 150mm with handle, cable length 2 metres.

HP475AC

HP477DC TP472I

HP474AC P5

TP474C

P8 HP473AC

TP473P

HP472AC

HD11 / HD33 / HD75

Humidity

RELATIVE HUMIDITY AND TEMPERATURE PROBES Code

Sensors

Range RH - Temp. 170

HP472ACR

RH Pt100

Ø 26

170

HP572ACR

5 ÷ 98% RH -20°C…+80°C

RH tc.k

Ø 26

130

120 Ø 14

HP473ACR

130

215 Ø 14

HP474ACR

110

560 Ø 14

HP475ACR RH Pt100

480

5 ÷ 98% RH -40°C…+150°C

HP475AC1R

Ø 14

110

520 18x4

HP477DCR

130 Ø 14

HP478ACR

SATURATED SOLUTIONS AND PROBE PROTECTIONS CODE

HD75 HD33 HD11

USE

Threaded ring nut M24 x 1,5 for probes Ø 26 Threaded ring nut M12 x 1 for probes Ø 14

P1 P2 P3 P4

Ø 26

P5 P6 P7 P8

Ø 14

Humidity

M 24x1,5 P1

M 12x1 P5

HD 75 HD 33 HD 11

Notes and warnings: I. Keep salt solutions in the dark at a temperature of about 20°C. II. Salt solutions are effective and can be used as long as there is salt to be melted as well as liquid inside them. As a rule, in 33% RH and 11%RH solutions make sure that there is some solid salt left, while in 75%RH solution make sure that there is some liquid left or salt is wet. III. For better results, the temperature of the probe and that of the saturated solution must be as close as possibile. Do not forget that plastic materials are bad conductors of heat. Any difference of tenths of degree between the sensor and the saturated salt solution leads to errors of RH points. IV. Do not touch the sensitive element with your hands or other objects . Scratches and dirt alter the instrument measurement and may damage the sensor. V. The measurement chamber must be closed, otherwise the equilibrium cannot be reached. Screw the probe to the bottom of the bottle thread. VI. The check or calibration sequence for Delta Ohm instruments or transmitters is always as follows: first solution: 75% RH second solution: 33%RH third solution: 11% RH (if any) No sequence is compulsory for checking the sensor. VII. To calibrate or set up the instrument, follow the instruction manual of the instrument that you are using. VIII. If you check, set up or calibrate the instrument at a temperature of other than 20°C, see the following table to find out the equilibrium relative humidity reference value of the salt solution corresponding to the working temperature. In this table, you will find the saturated salt relative humidity variation when temperature changes.

Equilibrium relative humidity of selected saturated salt solutions from 0 to 100°C

HD 75, HD 33, HD 11 How to use saturated salt solutions for checking, setting up or calibrating instruments with Relative Humidity sensors. Before starting. 1. Make sure that inside the chamber containing the saturated salt solutions there are at the same time: • solid salt • liquid solution or wet salt 2. The instrument and the saturated solutions to be used are to be kept in an environment at stable temperature while checking or calibrating them. 3. Wait for at least a couple of hours at stable temperature so that the instrument and the salt solutions reach thermal equilibrium with the environment. 4. Unscrew the cap of the first saturated salt solution to be used for checking or calibrating the instrument. Use: • for probes with thread M24X1,5, the bottle threaded hole M24X1,5 directly; • for probes with thread M12X1, the supplied adapter M24X1,5 / M12X1. 5. If there is any liquid inside the measurement chamber, dry it with clean absorbent paper. The uncertainty of the solution or measurement is not influenced by any liquid left inside the measurement chamber. 6. Screw the probe to the bottom of the thread; do not touch the sensitive element with your hands or any other object or liquid. 7. The temperature of the salt solution and that of the sensor must be the same or very close. Once the sensor is inserted, wait for at least 30 minutes. 8. Connect the probe to the instrument or transmitter. Power or turn them on as per instructions. 9. After 30 minutes, start the calibration procedure for the first calibration point according to the instruction manual of the specific instrument. 10. Once you have checked, set up or calibrated the first point, take the probe out of the bottle and put the cap back on the bottle. Make sure you do not mix it up with that of other saturated solutions. 11. Repeat points 1, 2, 3 and 4 to perform the second calibration point with the second saturated solution. 12. Repeat points 1, 2, 3 and 4 to perform a possible third point with the third saturated solution (if necessary).

Lithium Chloride

Magnesium Chloride

Sodium Chloride

11.23 ± 0.54

33.66 ± 0.33

75.51 ± 0.34

11.26 ± 0.47

33.60 ± 0.28

75.65 ± 0.27

11.29 ± 0.41

33.47 ±0.24

75.67 ± 0.22

11.30 ± 0.35

33.30 ± 0.21

75.61 ± 0.18

11.31 ± 0.31

33.07 ± 0.18

75.47 ± 0.14

11.30 ± 0.27

32.78 ± 0.16

75.29 ± 0.12

11.28 ± 0.24

32.44 ± 0.14

75.09 ± 0.11

11.25 ± 0.22

32.05 ± 0.13

74.87 ± 0.12

11.21 ± 0.21

31.60 ± 0.13

74.68 ± 0.13

11.16 ± 0.21

31.10 ± 0.13

74.52 ± 0.16

11.10 ± 0.22

30.54 ± 0.14

74.43 ± 0.19

11.03 ± 0.23

29.93 ± 0.16

74.41 ± 0.24

10.95 ± 0.26

29.26 ± 0.18

74.50 ± 0.30

10.86 ± 0.29

28.54 ± 0.21

74.71 ± 0.37

10.75 ± 0.33

27.77 ± 0.25

75.06 ± 0.45

10.64 ± 0.38

26.94 ± 0.29

75.58 ± 0.55

10.51 ± 0.44

26.05 ± 0.34

76.29 ± 0.65

10.38 ± 0.51

25.11 ± 0.39

10.23 ± 0.59

24.12 ± 0.46

10.07 ± 0.67

23.07 ± 0.52

100

9.90 ± 0.77

21.97 ± 0.60

Humidity

Temp. °C

Humidity

HD 37AB17D HD 37B17D

and stored measurements. In addition the software allows the calibration adjustments of the RH, CO (only HD37B17D) and CO2 sensors. Using appropriate procedure, the Software DeltaLog13 can evaluate the parameter % OA (percentage of external air), according to the following formula:.

%OA=

Xr - Xs Xr - X0

100

•

HD 37AB17D, HD 37B17D Datalogger Relative Humidity - Temperature - CO - CO2

275 mm x 45 mm x 40 mm 230 g (batteries included) ABS Batteries charger 100-240Vac/6Vdc-1A Package with 2 rechargeable batteries 1.2V type AA (NiMH) 8 hours of continuous working in measurement mode 200µA 0°C ... 50°C 0%RH ... 95%RH no condensation -25°C ... +70°C / 10%RH ... 90%RH no condensation Unlimited

Connections USB interface Charger Batteries power supply (code SWD06)

USB 2.0 cable B type Baudrate 460800 2 - poles connector (positive at the centre) Output voltage: 6Vdc Maximum current: 1600mA (9, 60 VA Max).

Measuring rate

1 sample every three seconds

Storage capacity

20000 Records Every record includes the following: - date and time - measurement of the carbon dioxide (CO2) - measurement of the carbon monoxide (CO- only HD37AB17D) - measurement of the relative humidity (RH) - measurement of the temperature (T)

HD37AB17D and HD37B17D instrument are data loggers able to measure and memorize simultaneously the following parameters: • Relative Humidity RH • Environment temperature T • Carbon monoxide CO (only HD37AB17D) • Carbon dioxide CO2 HD37AB17D and HD37B17D instruments have the ability to investigate and monitor the indoor air quality. Typical applications include checking air quality inside buildings occupied by people (schools, hospitals, auditoria, canteens, etc.); and work places to optimize the comfort and to generally check for small leaks of CO with danger of explosions or fire. This analysis allows the management of conditioning plants (temperature and humidity) and ventilation (recycle air/hour) in order to reach a double purpose: getting a good quality of the air in accordance with ASHRAE and IMC regulations and energy saving. HD37AB17D and HD37B17D are instruments which are very useful to fight the socalled syndrome of sick building. RH (Relative Humidity) measurement is obtained with a capacitive sensor. T temperature is measured with a high precision NTC sensor. The CO measurement (Carbon monoxide, only for HD37AB17D) is made by an electrochemical cell with two electrodes indicated to detect the presence of Carbon monoxide, lethal for men, in his living or working environment. The CO2 measurement (Carbon dioxide) is obtained with a special infrared sensor (NDIR technology: Non-Dispersive Infrared Technology) that, thanks to the use of double filter and a special measurement techniques, guarantees accurate and stable measurements over time. The infrared sensor is equipped with a protection membrane which provides protection from dust particles and aggressive air agents to assure the sensor’s long life. HD37AB17D and HD37B17D are data loggers able to memorize the detected measurements at an interval set by the user. HD37AB17D and HD37B17D are connected to the PC by USB input. DeltaLog13 communication software via the USB port , designed to perform data transfer, data collection and recording and printing of all the instrument parameters Humidity

Humidity

Technical Features Dimensions Weight Materials Mains power supply (code SWD06) Batteries Autonomy Current absorbed with instrument off Instrument working temperature Working relative humidity Temperature / Storage humidity Safety of the stored data

Logging interval Printing interval Sensor Features Relative Humidity RH Sensor protection Measurement range Sensor working range Accuracy Resolution Thermal effects Hysteresis and repeatability Response time (T90) Long term stability Temperature T Sensor type Measurement range Accuracy Resolution Response time (T90) Long term stability

selectable within: 3,6,12,15,30,60 seconds, 2,3,4,5 minutes The stored values represent the average value of the samples that are stored every three seconds. selectable within: 3,6,12,15,30,60 seconds, 2,3,4,5 minutes The printed values represent the average value of the samples that are stored every three seconds. Capacitive sensor Net filter made of stainless steel (on request filter P6 in AISI316 sintered 20µm or filter P7 in PTFE sintered 10µm) 0...100 % RH -40...+80°C ±2% (5÷90%RH) ±2,5% in the remaining range 0,1% ±2% on whole temperature range 1% RH < 20 sec. (air speed = 2m/sec) without filter 1%/year NTC 10KΩ -40...+60°C ±0.2°C ±0.15% of the measure 0,1°C < 30 sec. (air speed = 2m/sec) 0.1°C/year

Carbon monoxide CO (only HD37AB17D) Sensor Electro chemical cell Measurement range 0…500ppm Sensor working range -5…50°C Accuracy ±3ppm+3% of the measured value Resolution 1ppm < 50 sec. Response time (T90) Long term stability 5% of the measure/year Expected life > 5 years in normal environmental conditions

Humidity

Carbon dioxide CO2 Sensor Measurement range Sensor working range Accuracy Resolution Thermal effects Response time (T90) Long term stability

NDIR with a double wave length 0…5000 ppm -5…50°C ±50ppm+3% of the measurement 1ppm 0,1%f.s./°C < 120 sec. (air speed = 2m/sec) 5% of the measure/ 5 years

Ordering codes HD37AB17D: The kit consisting of: HD37AB17D instrument to measure CO (Carbon monoxide), CO2 (Carbon dioxide), RH (Relative Humidity), T (Temperature), DeltaLog13 Software, USB cable code CP22, SWD06 power supply, BAT-2 batteries pack, instruction manual, carrying case. HD37B17D: instrument to measure CO2 (Carbon dioxide), CO (Carbon monoxide), RH (Relative Humidity), T (Temperature), DeltaLog13 Software, USB cable code CP22, SWD06 power supply, BAT-2 batteries pack, instruction manual, carrying case. Accessories: VTRAP20: Instrument tripod, maximum height 270mm. SWD06: 100-240Vac/6Vdc-1A mains voltage power supply. BAT-20: Replacement batteries pack for HD37AB17D and HD37B17D instruments with integrated temperature sensor. P5: Stainless steel grid protection for probes diameter 14, thread M12×1. P6: Sintered stainless steel 10µ grid protection, for probes diameter 14, thread M12×1. P7: 10µ, PTFE protection for probes diameter 14, thread M12×1. P8: Stainless steel and Pocan protection for probes diameter 14, thread M12×1. HD75: Saturated solution for testing the Relative Humidity with 75% HR, complete with adapter for probes diameter 14, thread M12×1. HD33: Saturated solution for testing the Relative Humidity with 33% HR, complete with adapter for probes diameter 14, thread M12×1. MINICAN.12A: Cylinder of nitrogen for the calibration of CO and CO2 at 0ppm. Volume 12 litres. With adjustment valve. MINICAN.12A1: Cylinder of nitrogen for the calibration of CO and CO2 at 0ppm. Volume 12 litres. Without adjustment valve. ECO-SURE-2E CO: Spare CO sensor. HD37.36: Kit connection pipe between instrument and MINICAN.12A for the calibration of CO. HD37.37: Kit connection pipe between instrument and MINICAN.12A for the calibration of CO2.

Communication interfaces Bluetooth (for HD40.2) RS232 Baud rate Bluetooth Baud rate Bluetooth operating distance Mains power supply (cod. SWD10) Batteries Printing autonomy Switch-off function Dimensions Weight Material Operating conditions Operating temperature Operating relative humidity Storage Temperature / Relative humidity Protection degree Connections Serial interface Battery charger power supply (cod. SWD10)

HD 40.1, HD 40.2 Portable thermal printer The HD40.1 and HD40.2 are lightweight, compact, portable thermal printers. The HD40.1 is connected to instruments or PC through the RS232 serial input. The HD40.2 features a dual mode data reception system - RS232 serial and Bluetooth. The Bluetooth wireless connection makes the HD40.2 printer very useful “in the field”, since it does not require any connection to the instrument. A careful design allows you to replace the thermal paper roll in a few seconds. A four NiMH rechargeable battery pack provides power supply and ensures long autonomy: you can print up to 3000 lines at full charge. Standard thermal paper roll width: 57mm. Print resolution: 203 dpi Print characters (each line): 24 Protection degree: IP40. Specifications Printing method Resolution Printing width Paper roll width Max. paper roll diameter Number of columns Printing speed

Thermal 203 DPI (8 dot/mm) 48mm centered in the paper roll 57mm ... 58mm 32mm 24 Up to 90 mm/sec (depending on battery charge and ambient conditions)

Sensors Character set Printing formats Character font

Paper detection IBM II 858 table Normal or extended 1 (16 x 24 dot – 2mm x 3mm)

Thermal head durability Mechanism life Abrasion resistance Cover group durability

100 million pulses (temperature: 20...25°C) 50km of paper (temperature: 20...25°C) 2000 opening/closing cycles or more

RS232 9600, 19200 and 38400 baud (the factory parameter is 38400 baud) 38400 baud (for HD40.2) Up to 10m without hindrance (for HD40.2) 100-240Vac/12Vdc-1A mains battery charger Four 1.2V AA rechargeable batteries (NiMH) 3000 lines 24 characters each. It prints one line every 10 seconds 0, 5, 10 or 15 minutes 105mm x 165mm x 53mm 380g (with batteries and paper roll) ABS 0°C ... 50°C 20%RH ... 85%RH not condensing -25°C ... +70°C / 10%RH ... 90%RH not condensing IP40 9-pole D sub male connector 2-pole connector (positive in the middle)

Ordering codes HD40.1: The kit includes: 24-column portable thermal printer, serial interface RS232, 57mm paper width, four NiMH 1.2V rechargeable batteries, SWD10 power supply, instruction manual, 5 thermal paper rolls. HD40.2: The kit includes: 24-column portable thermal printer, Bluetooth and serial interface RS232, 57mm paper width, four NiMH 1.2V rechargeable batteries, SWD10 power supply, instruction manual, 5 thermal paper rolls. The serial cable for PC/instrument connection must be ordered separately. HD2110CSNM: RS232C 8-pole MiniDin - 9-pole D Sub female null-modem cable for connecting the printer to instruments with MiniDIN connector (HD21xx.1 and HD21xx.2 series, HD34xx.2, HD2010, HD2110, etc.). 9CPRS232: RS232C 9-pole D Sub female null-modem cable for connecting the printer to instrument with 9-pole D Sub connectors (Delta Ohm instruments: HD22xx.2 series, HD98569, HD25.2, etc.). SWD10: 100-240Vac/12Vdc-1A Mains battery charger. BAT.40: Spare battery pack for HD40.1 and HD40.2 printers with in-built temperature sensor. RCT: The kit includes 4 thermal paper rolls 57mm wide and 32mm diameter.

9CPRS232

RCT

SWD10

HD2110CSNM

Humidity

HD 40.1 HD 40.2

HD 45… HD 46…

highlighted by the LED indicators (only on models HD46 ... R). The operation of the relay is very versatile, having modes of activation above and below the threshold, and with single or double threshold modes. The thresholds are configurable by the user throughout the whole measurement range. The LCD display option allows instant viewing of all the measurements taken by the instrument. The model HD45 BVR is distinguished by the ability to indicate an immediate level of air quality, through turning on of the LED indicators associated with graphic symbols. All the functions of the instrument can be quickly and intuitively configured connecting the instrument to the PC. The instruments are easy to use, with complete configuration possibilities, which makes them versatile and able to meet many needs in various application fields. The instruments come with a standard configuration that makes them immediately operational. Upon request, the devices can be supplied with custom configurations. HD46 Series models can be equipped with keyboard that allows you to easily configure the instrument even without a connection to a PC. The models having a keypad are fitted with backlit display, activated by pushing a button. Models of the series HD45 ... provided with relay have a hardware switch that allows quick selection of the threshold between a set of preset values. All models perform continuous “logging” of the measures, and data can be transferred to the PC. The instruments work with 24Vac or 15…35Vdc power supply. Technical data Characteristics of the sensors Relative humidity RH (for models HD45 17…, HD46 17… and HD46 17B…) Sensor Capacitive 5...98 % RH Measuring range -40…+85°C Dew point Td Working range of the sensor -40...+80°C ±2% (10..90%RH) @ 20°C, ±2.5% in the remaining range. Accuracy For Dew point, see table Resolution 0,1% Temperature dependance 2% on the whole temperature range Hysteresis and repeatability 1%RH <20 sec. Response time (T90) (air speed = 2m/sec and stable temperature) Long-term stability 1%/year

The instruments of the series HD45 and HD46 are transmitters, indicators and controllers, they measure and control, depending on the model, the following environmental parameters: • Relative humidity (RH) • Ambient temperature (T) • Carbon dioxide (CO2) • Dew point temperature (DP, calculated measurement) They are suitable for monitoring the air quality in indoor environments. Typical applications include checking air quality in all buildings occupied by people (schools, hospitals, auditoria, work places, canteens, etc.).. This analysis allows the managing of conditioning plants (temperature and humidity) and ventilation (recycle air/hour) in order to reach a double purpose: getting a good air quality in accordance with ASHRAE and IMC regulations and energy saving. The measurement of RH (Relative Humidity) is obtained with a capacitive sensor. In models HD46 ... the relative humidity and temperature sensor with their calibration data are contained within an easily replaceable module. The instrument can also calculate the information on the dew point. The temperature T is measured with a high precision NTC sensor. The measurement of CO2 (carbon dioxide) is obtained with a special infrared sensor (NDIR technology: Non-Dispersive Infrared Technology), which, thanks to a double filter and a particular measurement technique, ensures accurate measurements and stable measurements over time. The infrared sensor is equipped with a protection membrane which provides protection from dust particles and aggressive air agents to assure the sensor’s long life. The instrument can be wall mounted and sensors are all inside. The instruments are factory calibrated and require no further adjustment by the installer. Versions are available with analog voltage output 0÷10V or connectable to a PC via RS485 with MODBUS RTU protocol, which allows connection of multiple transmitters on the same network. The versions with relay allow to monitor the measured environmental parameters when the user-settable thresholds are exceeded. The activation of the control is

Humidity

Temperature T (for models HD45 17…, HD45 7B…, HD46 17… and HD46 17B…) Sensor type NTC 10KΩ Measuring range -30...+85°C (-22…+185°F) ±0.2°C ±0.15% of the measured value within 0…70°C Accuracy ±0.3°C ±0.15% of the measured value within -30…0°C and 70…85°C Resolution 0,1°C <30 sec. (air speed = 2m/sec) Response time (T90) Long-term stability 0.1°C/year Carbon dioxide CO2 (for models HD45 7B…, HD45 B…and HD46 17B…) Sensor Dual wavelength NDIR Measuring range 0…5000 ppm Working range of the sensor -5…50°C ±(50ppm+3% of the measured value) @ 20°C and Accuracy 1013hPa Resolution 1ppm Temperature dependance 0,1%f.s./°C <120 sec. Response time (T90) (air speed = 2m/sec and stable temperature) Long-term stability 5% of the measured value /5years

Accuracy of the dew point Td (°C) The dew point is a calculated quantity that depends on the accuracy of the calibration of relative humidity and temperature. The values given below refer to accuracy of ± 0.25 ° C, 1013.25mbar, ± 2.5% RH.

Temperature (°C)

HD45… and HD46… series Transmitters and regulators for humidity, temperature and CO2

-20 0 20 50 100

10 2.50 2.84 3.34 4.16 5.28

Relative humidity(%) 30 50 1.00 0.71 1.11 0.78 1.32 0.92 1.64 1.12 2.07 1.42

70 0.58 0.64 0.75 0.90 1.13

90 -0.56 0.64 0.77 0.97

100 -0.50 0.62 0.74 0.91

Configuration Instruments are provided with serial output, easily accessible on the side of the instrument that allows you to connect to the USB port of your PC using the cable RS45 or RS45I with built-in adapter, to get custom configurations. With the RS45 cable, the instrument is powered directly from the USB port of your PC, thus enabling the configuration of the instrument in the field using a laptop before installing fixed.

Characteristics of the instrument 1 sample every 3 seconds 2304 records Selectable within 30s, 1m, and 5m The stored values represent the average values of samples collected every 3 seconds in selected storage interval. Serial output for USB (mini‑USB/USB cable with adapter cod. RS45 or RS45I) RS485 MODBUS-RTU (only HD45…S… and HD46…S…) Unlimited 0…10Vdc (Rl > 10kΩ) (only HD45…V…and HD46…V) 11Vdc outside the measuring range Two-state (only HD45…R and HD46…R) Contact: max 1A @ 30Vdc resistive load 24Vac ± 10% (50…60Hz) or 15…35Vdc 100 mW 15 minutes (to guarantee the declared accuracy)

+5Vdc Lmax = 5m (USB)

Power supply Power consumption Stabilising time Working temperature of the 0°C ... 50°C instrument Working humidity of the 0%RH ... 95%RH no condensate instrument 80 x 80 x 30 mm (HD45.17…) Dimensions 80 x 80 x 34 mm (HD45.B… and HD45.7B…) (LxHxW) 120 x 80 x 30 mm (HD46.17…) 120 x 80 x 34 mm (HD46.17B…) Housing material ABS

RS232C 1

3 7

4 8

RS232C / RS485

220Ω

GND

Shield

390Ω

Shield

9 D0 D1

Lmax = 15m (RS232C) 4

HD45 B...V HD45 B...VR ANALOG OUTPUTS 0...10 Vdc temp.

RELAY [R option]

Air Quality

RELAY [R option]

GND

HD45 HD45 17...17...80

HD45 B... HD45 7B...

HD45 17...

GND

Series HD46...

HD45...R HD45...S

HD45...SR

Series HD46... V

hum.

CO2

temp.

GND

Humidity-Temperature-CO 2 Transmitter

HD46...R HD46...SR

HD46 17B...V

hum.

GND

temp.

120

HD46 17B... HD46 17B...

Fixing holes

Humidity-Temperature-CO 2 Transmitter

HD46 17... HD46 17...

HD 46 Series

R4 8

(x4)

1208

(x4)

HD46 17...V

GND

HD46...S

R4 (x6)

(x4)

HD46 17B...

ESC

HD 46 Series Humidity-Temperature Transmitter

(x4)

POWER SUPPLY 24 Vac 15...35 Vdc

RS 485

120 120 POWER

120

CO 2

ESC

POWER SUPPLY 24 Vac 15...35 Vdc

HD 46 Series Humidity-Temperature Transmitter HD 46 Series

Humidity-Temperature Transmitter

Transmitter

ANALOG OUTPUTS 0...10 Vdc

HD 46 Series

POWER

ESC

Transmitter

ESC

GND

POWER SUPPLY 24 Vac 15...35 Vdc

POWER

POWER SUPPLY 24 Vac 485 15...35 Vdc RELAY RELAY [SRS options] TEMP. HUMIDITY

CO 2

RELAY

POWER

[Ver. B only]

POWER

ANALOG OUTPUTS 0...10 Vdc

HD45 17...V HD45 17...VR

HD45 B... HD45 80 B... 7B... HD45HD45 7B...

hum.

HD 45 Series Humidity-Temperature Transmitter

POWER SUPPLY 24 Vac 15...35 Vdc

RS 485 [S option]

HD 45 Series HD 45 Series Humidity-Temperature Humidity-Temperature TransmitterTransmitter

HD 45 Series

HD45 7B...V HD45 7B...VR

POWER SUPPLY 24 Vac 15...35 Vdc

POWER

Humidity

POWER POWER

POWER

(x6)

120

(x6)

HD46 17... 28

ID = 2 HD45...

HD45... HD45...

HD46... HD46...

Humidity 9

CO2

Air Quality Air Quality HD 45 Series HD 45 Series

Dimensions of the housing All dimensions are expressed in mm. Series HD45...

ID = 1 HD46...

GND

80 80

GND

CO2

GND

POWER SUPPLY 24 Vac 15...35 Vdc

temp.

RELAY [R option]

D0 D1

ANALOG OUTPUTS 0...10 Vdc

POWER SUPPLY 24 Vac 15...35 Vdc

ANALOG OUTPUT 0...10 Vdc

RELAY [R option]

2 6

Lmax = 1200m

USB / RS485

Installation The container is easy and quick to open. Simply press the two tabs of the container to remove the front panel to have immediately access to the terminal block connections and fixing holes. Electrical connections Series HD45...

390Ω

Relay output

Analogue output

Safety of stored data

RS485 Connection Models with RS485 output use the MODBUS RTU protocol. To connect to the PC, interpose a RS232C/RS485 or USB/RS485 converter.

Serial output

Storage interval

Measuring frequency Storage capacity

Ordering codes

Available models The instruments are available in the following versions: HD45 17… Humidity and temperature HD45 7B… Temperature and CO2 HD45 B… CO2 HD46 17B… Humidity, temperature, and CO2 HD46 17… Humidity and temperature

HD45

Optionally you can have the analog output 0 ... 10Vdc for each quantity measured by the instrument (option V), or RS485 serial output (option S). There are no models with both types of output. There is the option with only relay (option R). In models HD46 ... there is one relay for each quantity measured by the instrument. In models HD45 ... there is one relay that can be associated with one of the quantities measured by the instrument It is possible to have the relay output (or the outputs ) together with serial output RS485 (option SR). The relay output together with the analog output (option VR) is only available on models HD45. All models can be supplied with LCD (option D). In the series HD46 ..., versions with relay outputs are available with display and keyboard (option DT) The following table lists the available models: Model HD45 17V HD45 17S HD45 17R HD45 17SR HD45 17VR HD45 17DV HD45 17DS HD45 17DR HD45 17DSR HD45 17DVR HD45 7BV HD45 7BS HD45 7BR HD45 7BSR HD45 7BVR HD45 7BDV HD45 7BDS HD45 7BDR HD45 7BDSR HD45 7BDVR HD45 BV HD45 BS HD45 BR HD45 BSR

RH T CO2          

Analog RS485 output output  (2 outputs) 

      (2 outputs)   (2 outputs)      (2 outputs)    (2 outputs)          (2 outputs)    (2 outputs)          (2 outputs)   (1 output)   

HD45 BVR

  (1 output)

HD45 BDV HD45 BDS HD45 BDR HD45 BDSR HD45 BDVR

  (1 output)      (1 output)

Model



Relay output

LCD

 (1 output)  (1 output)  (1 output)

 

 (1 output)  (1 output)  (1 output)

    

 

 (1 output)  (1 output)  (1 output)

 

 (1 output)  (1 output)  (1 output)

    

 

 (1 output)  (1 output )  (1 output)

 

 (1 output)  (1 output)  (1 output)

    

Analog RS485 LCD output output Relay output keyboard  (2 outputs) 

T CO2

HD46 17V HD46 17S

 

HD46 17R



HD46 17SR



HD46 17DV HD46 17DS

 

HD46 17DTR



 (2 outputs)



 (2 outputs



 (2 outputs) 



HD46 17BV HD46 17BS

 

  (3 outputs) 

HD46 17BR



HD46 17BSR



HD46 17BDV HD46 17BDS

 

  (3 outputs) 



HD46 17BDTR



HD46 17BDTSR 



Humidity

only LCD only LCD



HD46 17DTSR

 (2 outputs)

 

 (3 outputs)



 (3 outputs only LCD only LCD  (3 outputs)



 (3 outputs)



LED Power Power Power Power Power Power Power Power Power Power Power Power Power Power Power Power Power Power Power Power Power Power Power Power 4 LED CO2 level Power Power Power Power Power LED Power Power Power RH + T Power RH + T Power Power Power RH + T Power RH+ T Power Power Power RH+T+ CO2 Power RH +T+ CO2 Power Power Power RH +T+ CO2 Power RH +T+ CO2

AVAILABLE OPTIONS V = Analog output 0÷10Vdc S = RS485 output R = Relay output VR = Analog output 0÷10Vdc + relay SR = RS485 + relay It is not possible to have the analogue output when you have the RS485, and vice versa.

D = With display No character = without display Sensors 17 = Relative humidity + temperature 7B = Temperature + CO2 B = CO2 HD46

AVAILABLE OPTIONS V = Analogue outputs 0÷10Vdc S = Output RS485 R = Relay output SR = RS485 output + relay outputs It is not possible to have the analogue output when you have the RS485, and vice versa. Option V includes one analogue output for each measured quantity. Options R and SR include one analogue output for each measured quantity.

D = With display DT = With display and keyboard No character = Without display and without keyboard Option DT is available only together with option R or SR.

Sensors 17 = Humidity + temperature 17B = Humidity, temperature +CO2 Examples of ordering codes HD45 7BDVR: Transmitter, indicator and regulator for temperature and CO2. Two analogue outputs 0 ÷ 10V, one configurable relay to control temperature or CO2. HD45 BVR: Transmitter, indicator and regulator for CO2. Without display, with LED indicators of the CO2 level, with analogue output 0 ÷ 10V, with relay. HD45 17VR: Transmitter and regulator for humidity and temperature. Without display, with two analogue outputs 0 ÷ 10V, one configurable relay to control the humidity or temperature. HD45 17DV: Transmitter and indicator for humidity and temperature. With display, two analogue outputs 0 ÷ 10V, without relay. HD45 7BSR: Transmitter and regulator for temperature and CO2. Without display, with RS485 output, no analogue output, with one configurable relay to control temperature or CO2. HD46 17BDV: Transmitter and indicator for humidity, temperature and CO2. With display, without keyboard, with three analogue outputs 0 ÷ 10V, without relays and without RS485. HD46 17BDTSR: Transmitter, indicator and regulator for humidity, temperature and CO2. Display and keyboard, three relay outputs, RS485 output. HD46 17S: Humidity and temperature transmitter. No display and no keyboard, no relays, with RS485 output. Accessories DeltaLog14.: Software for connecting to the PC via the serial output, for the configuration of the instrument and data download. For operating systems from Windows® 98 to Windows Vista®. HDM46: Calibrated humidity and temperature replacement module (only for models HD46…) RS45: Not isolated serial connection cable with built-in adapter. USB connector for PC and mini-USB connector for the serial port of the instrument. The cable powers the instrument. RS45I: Isolated serial connection cable with built-in adapter. USB connector for PC and mini-USB connector for the serial port of the instrument. The cable does not power the instrument. HD45TCAL: The Kit includes the RS45 cable with built-in adapter and the CD-ROM with the DeltaLog14 software for Windows operating systems. The cable is provided with USB connector on the PC side and mini‑USB connector for the serial port of the instrument. HD45TCALI: The Kit includes the RS45I cable with built-in adapter and the CD-ROM with the DeltaLog14 software for Windows operating systems. The cable is provided with USB connector on the PC side and mini‑USB connector for the serial port of the instrument.

Technical specifications STANDARD RANGE Relative Humidity Sensor Measuring range Accuracy Repeatability Sensor working temperature Temperature Measuring range Sensor Accuracy Repeatability Dew Point Sensor Measuring range Accuracy Repeatability Models HD4807T.. Models HD4807ET.. Models HD48V07T.. Models HD48V07ET.. Models HD48S07T.. HD48S07ET.. Models HD4907T.. Models HD4907ET.. Models HD4801T.. HD4801ET.. Models HD48V01T.. HD48V01ET.. Models HD48S01T.. HD48S01ET.. Model HD4901T.. HD4901ET..

HD 4807T…, HD 48V07T…, HD 48S07T…, HD 4801T..., HD 48V01T..., HD 4817T..., HD 48V17T..., HD 4877T... HD 48V77T..., HD 4907T…, HD 4901T..., HD 4917T..., HD 4977T... Temperature and Relative Humidity transmitters, Relative Humidity, Temperature and Relative Humidity, Temperature and Dew Point HD48.. and HD49.. series of transmitters measure temperature, relative humidity and dew point. Versions with only standard analog output or with only RS485 output with MODBUS‑RTU protocol are available. The models with analog output provide a signal suitable for transmission to a remote display, recorder or PLC. The models with RS485 output are suitable for connection to a PC or PLC. The models of the HD48.. series are active transmitters and accept both direct and 24Vac alternating power supply; they have standard current (4…20mA) or voltage (0…10V) outputs, or a serial RS485 output, depending on the model. The models of the HD49.. series are passive transmitters instead, and thus suitable to be inserted in a 4…20mA current loop. The HD48.. and HD49.. series of transmitters are designed for temperature and humidity control in conditioning and ventilation applications (HVAC/BEMS) in the following sectors: pharmacy, museums, clean rooms, ventilation ducts, industrial and civil sectors, crowded places, canteens, auditoria, gyms, high-density farms, greenhouses, etc. The HD48.. and HD49.. transmitters measure relative humidity with a well proven temperature compensated capacitive sensor that assures precise and reliable measurements in the course of time. The transmitters of the HD48.. and HD49.. series are available in two probe temperature ranges: standard -20…+80°C and extended -40…+150°C for the most critical applications. A stainless steel 20µm filter protects the sensors against dust and particles (other filters are available for different applications). The transmitters are factory calibrated and no further adjustments are required. Each series is available in three different versions: with horizontal probe for duct mounting (HD48...TO..., HD49…TO…), with vertical probe for wall mounting (HD48...TV..., HD49… TV…) or with remote probe connected to the transmitter by means of a cable (HD48...TC..., HD49…TC…), cable lengths available are 2, 5 and 10m. The probes can be supplied in two different lengths (135mm or 335mm). Various accessories are available for the installation: for example to fix the probe to the duct, it can be used the HD9008.31 flange, a 3/8” universal biconical connection or a PG16 metal cable gland (∅10…14mm). A 4-digit optional LCD (“L” model) allows to display the measured parameters in a continuous or sequential mode.

Models HD4817T.. Models HD4817TV.. Models HD4817ET.. Models HD48V17T.. Models HD48V17ET.. Models HD48S17T.. HD48S17ET.. Models HD4917T.. Models HD4917TV.. Models HD4917ET.. Models HD4877T.. Models HD48V77T.. Models HD48S77T.. Models HD4977T..

EXTENDED RANGE

Capacitive 0…100%RH ±2% (10..90%RH), ±2.5% outside 0.4%RH -20…+80°C

-40…+150°C

-20…+80°C NTC 10kΩ ±0.3°C (0..+70°C) ±0.4°C (-20..0°C, +70..+80°C) 0.05°C

-40…+150°C Pt100 class A ±0.3°C 0.05°C

Parameter calculated from relative humidity and temperature -20…+80°C DP See table TAB.1 0.5°C DP Output type (depending on model) 4…20mA (-20...+80°C), Rl < 500Ω Temperature 22mA outside the measuring range 4…20mA (-40...+150°C), Rl < 500Ω Temperature 22mA outside the measuring range 0…10Vdc (-20...+80°C), Rl > 10kΩ Temperature 11Vdc outside the measuring range 0…10Vdc (-40...+150°C), Rl > 10kΩ Temperature 11Vdc outside the measuring range Temperature

Only RS485 with MODBUS-RTU protocol

4…20mA (-20...+80°C), RLMax = (Vdc-12)/0,022 22mA outside the measuring range (-40...+150°C), RLMax = (Vdc-12)/0,022 Temperature 4…20mA 22mA outside the measuring range 4…20mA (0...100%RH), Rl < 500Ω Relative Humidity 22mA outside the measuring range 0…10Vdc (0...100%RH), Rl > 10kΩ Relative Humidity 11Vdc outside the measuring range Temperature

Relative Humidity

Only RS485 with MODBUS-RTU protocol

Relative Humidity

4…20mA (0...100%RH), RLMax = (Vdc-12)/0.022 22mA outside the measuring range 4…20mA (0...100%RH), Rl < 500Ω 22mA outside the measuring range 4...20mA (-20...+80°C), Rl < 500Ω 22mA outside the measuring range 4…20mA (0...100%RH), Rl < 500Ω 22mA outside the measuring range 4...20mA (0...+60°C), Rl < 500Ω 22mA outside the measuring range 4…20mA (0...100%RH), Rl < 500Ω 22mA outside the measuring range 4...20mA (-40...+150°C), Rl < 500Ω 22mA outside the measuring range 0…10Vdc (0...100%RH), Rl > 10kΩ 11Vdc outside the measuring range 0…10Vdc (-20...+80°C), Rl > 10kΩ 11Vdc outside the measuring range 0…10Vdc (0...100%RH), Rl > 10kΩ 11Vdc outside the measuring range 0…10Vdc (-40...+150°C), Rl > 10kΩ 11Vdc outside the measuring range

Relative Humidity Temperature Relative Humidity Temperature Relative Humidity Temperature Relative Humidity Temperature Relative Humidity Temperature Relative Humidity Temperature

Only RS485 with MODBUS-RTU protocol

(0...100%RH), RLMax = (Vdc-12)/0.022 Relative Humidity 4…20mA 22mA outside the measuring range 4...20mA (-20...+80°C), RLMax = (Vdc-12)/0.022 Temperature 22mA outside the measuring range (0...100%RH), RLMax = (Vdc-12)/0.022 Relative Humidity 4…20mA 22mA outside the measuring range 4...20mA (0...+60°C), RLMax = (Vdc-12)/0.022 Temperature 22mA outside the measuring range (0...100%RH), RLMax = (Vdc-12)/0.022 Relative Humidity 4…20mA 22mA outside the measuring range 4...20mA (-40...+150°C), RLMax = (Vdc-12)/0.022 Temperature 22mA outside the measuring range 4...20mA (-20...+80°C DP), Rl < 500Ω Dew Point 22mA outside the measuring range 4...20mA (-20...+80°C), Rl < 500Ω Temperature 22mA outside the measuring range 0…10Vdc (-20...+80°C DP), Rl > 10kΩ Dew Point 11Vdc outside the measuring range 0…10Vdc (-20...+80°C), Rl > 10kΩ Temperature 11Vdc outside the measuring range Dew Point Only RS485 with MODBUS-RTU protocol Temperature 4...20mA (-20...+80°C DP), RLMax = (Vdc-12)/0.022 Dew Point 22mA outside the measuring range 4...20mA (-20...+80°C), RLMax = (Vdc-12)/0.022 Temperature 22mA outside the measuring range

Humidity

HD 4807T… HD 4907T… HD 48V07T… HD 4901T... HD 4801T... HD 4917T... HD 48V01T... HD 4977T... HD 4817T... HD 48V17T... HD 4877T... HD 48V77T...

STANDARD RANGE EXTENDED RANGE Power supply and connections HD48.. HD49.. 12...40Vdc 16...40Vdc or 24 Vac ±10% Screw type terminal block, max 1,5mm2, M16 cable gland for input cable General specifications

Power supply Electrical connections Electronics working temperature

+Vdc

Vac/dc Power supply

0...+60°C STANDARD RANGE -20…+100°C -20…+80°C IP66 80x84x44

Probe working temperature Storage temperature electronics protection class Case dimensions

EXTENDED RANGE -40…+150°C

+Vdc

Vac/dc Power supply

TAB.1 - Accuracy of dew point measurement:

Temperature °C

-20 -10 0 10 20 30 40 60 80

-20 ≤±1 ≤±1 ≤±1 ≤±3 ≤±4

-10

≤±1 ≤±1 ≤±1 ≤±2 ≤±3

≤±1 ≤±1 ≤±1 ≤±1,5

NOT SPECIFIED

DP °C 20

≤±1 ≤±1 ≤±1 ≤±2 ≤±5

≤±1 ≤±1 ≤±1 ≤±2,5

≤±1 ≤±1 ≤±2

≤±1 ≤±1

DP LIMIT ≤±1 ≤±1 ≤±2 ≤±4

HD48.. series with RS485 output Connect the instrument as shown in the below connection schemes, the power supply terminals are marked as +Vcc and GND.

+Vdc

≤±1

For example at 20°C a Dew Point value of 0°C DP is measured with an accuracy better than 1°C DP. Installation notes To fix the probe inside a ventilation duct, a pipe , etc., use for example the HD9008.31 flange, a PG16 metal cable gland (Ø10…14mm) or a 3/8” universal biconical connection.

Thanks to RS485 output, several instruments can be connected to form a network, consisting of a minimum of 1 instrument to a maximum of 247, connected in a sequence through a shielded cable with twisted pair for signals and a third wire for the common. ID = 1 RS 485 +Vcc GND Line Termination

HD9008.31

Lmax = 5m (USB)

GND

+ -

GND

Line Termination

+5Vdc

HD9008.31 Flange

+ -

ID = 2 RS 485 +Vcc GND

390Ω D1

USB / RS485

220Ω

D0 RS232C 1

2 6

3 7

4 8

RS232C / RS485

Shield

390Ω

RS232C/RS485 or USB/RS485 converter

Line termination must be set at the two network ends. To polarize the line during non-transmission periods, resistors are connected between signal and power supply lines. If more than 32 devices have to be connected, place a signal repeater between a group and the next one. The line termination must be connected at both ends of each segment. The instrument has a built‑in line termination that can be connected or removed through a short jumper placed next to the terminal block. If the instrument is the last or the first device of a network group, connect the termination placing the short jumper between the “RT” and “240 ohm” indications. If the instrument is not at the end of a network group, remove the termination placing the short jumper between the “RT” and “OPEN” indications.

Universal biconical connector L = 35mm D = 14mm A = 3/8”

Termination connected

Termination disconnected

240 ohm N=0 RT OPEN

Electrical connections HD48.. series with analog output Power the instrument as shown in the below connection schemes, the power supply terminals are marked as +Vcc and GND. Depending on the model, the output signal is available between: - Ta and AGND terminals for the transmitters of the HD4807T.. and HD48V07T.. series - RH% and AGND terminals for the transmitters of the HD4801T.. and HD48V01T.. series - RH% and AGND, Ta and AGND terminals for the transmitters of the HD4817T.. and HD48V17T.. series - DP and AGND, Ta and AGND terminals for the transmitters of the HD4877T.. and HD48V77T.. series.

Humidity

Shield

Lmax = 1200m

Lmax = 15m (RS232C)

PG16 metal cable gland D = 10…14mm L = 6.5mm H = 23mm A = PG16

GND

1 2 +Vcc GND

+RS 485OUTPUT

5 GND

240 ohm N=0 RT

ADDRESS

OPEN

MODBUS mode selected

1 2 +Vcc GND

+RS 485OUTPUT

5 GND

ADDRESS N=

MODBUS mode selected

The cable shield must be connected to both line ends. The cable should have the following features: - Characteristic impedance: 120 ohm - Capacity: less than 50pF/m - Resistance: less than 100 ohm/km - gauge: 0,22 mm2 (AWG24) at least The cable maximum length depends on baud rate and cable characteristics. Typically, the maximum length is 1200m. The data line must be kept separated from any power lines in order to prevent interferences on the transmitted signal. For connection to a PC, a RS232/RS485 or a USB/RS485 converter must be used. To operate with the MODBUS-RTU protocol be sure that the ADDRESS short jumper is between “ADDRESS” and “N=” indications.

Each transmitter of the network is univocally identified by an address. Transmitters having the same address shall not be present in the network. The address must be configured before connecting the instrument to the network. To set the instrument address use the HD48STCAL kit. The kit includes the RS48 cable with built‑in USB/RS485 adapter and a CD‑ROM for Windows® operating systems. To configure the instrument it is necessary to move the ADDRESS short jumper between the “ADDRESS” and “N=0” indications to select the setup mode. After the configuration, move the short jumper back between the “ADDRESS” and “N=” indications.

Probe dimensions: TO series TO1 L = 135mm TO2 L = 335mm

HD49.. series Follow the connection schemes shown below, the maximum load resistance that can be connected to each 4…20mA output depends on the power supply Vcc applied, according to the relation: RLMax = (Vcc-12)/0.022V, e.g. if Vcc=24Vdc the max load is RLMax =545 ohm.

TV series

Humidity

Relative humidity probe calibration The HD48.. and HD49.. transmitters are supplied factory calibrated and ready to use. If necessary, it is possible to calibrate the relative humidity sensor using the saturated salt solutions HD75 (75% RH saturated salt solution) and HD33 (33% RH saturated salt solution) and connecting the instrument to the PC. For the models with analog output, provided with RS232 (COM AUX) serial connector, use the HD48TCAL kit. The kit includes the RS27 cable for the serial connection of the transmitters to the PC and a CD-ROM for Windows® operating systems, that guides the user in the relative humidity probe calibration procedure. For the models with RS485 output, use the HD48STCAL Kit. The kit includes the RS48 cable with built‑in USB/RS485 adapter and a CD-ROM for Windows® operating systems, that guides the user in the relative humidity probe calibration procedure. To calibrate the instrument it is necessary to move the ADDRESS short jumper between the “ADDRESS” and “N=0” indications to select the setup mode. After the calibration, move the short jumper back between the “ADDRESS” and “N=” indications. Selection of configuration mode

240 ohm N=0 RT OPEN

1 2 +Vcc GND

+RS 485-

ADDRESS N=

GND

OUTPUT

Case dimensions

Humidity

TC series

TC1 L = 135mm TC2 L = 335mm

ORDERING CODES

H D 48 H D 49

T T

L L

L = with LCD display Cable length 2 = 2m 5 = 5m 10 = 10m Probe type TO1 = 135mm TO2 = 335mm TC1 = 135mm TC2 = 335mm TV = wall mounting

No sign = standard range –20…+80°C E = extended range –40…+150°C 07 = temperature output 01 = %RH output 17 = Temperature and %RH outputs 77 = Temperature and dew point outputs No sign = 4…20mA analogue output V = 0…10Vdc analog output (only HD48.. models) S = solo uscita RS485

Note: Versions with analogue output have one analogue output for each measured quantity.

Humidity

Ordering code examples HD4801TV: Wall mounting digital active relative humidity transmitter. Relative humidity range 0...100%RH. Analog output: 4…20mA (0...100%RH). Probe working range -20...+80°C. Power supply 16...40Vdc or 24Vac. HD4917TO1: Digital passive (current loop) temperature and relative humidity transmitter for duct mounting. AISI304 steel probe, diameter 14mm and stem length 135mm, joined to the electronics enclosure. Relative humidity range 0...100%RH, temperature range -20...+80°C. Analog outputs: 4…20mA (0...100%RH) for RH and 4...20mA (-20...+80°C) for temperature. Probe working range -20...+80°C. Power supply 12...40Vdc. HD4817TC25L: Digital active temperature and relative humidity transmitter with LCD display. AISI304 steel probe, diameter 14mm and stem length 335mm, connected to the electronics enclosure through a 5m cable. Relative humidity range 0...100%RH, temperature range -20...+80°C. Analog outputs: 4…20mA (0...100%RH) for RH and 4...20mA (-20...+80°C) for temperature. Probe working range -20...+80°C. Power supply 16...40Vdc or 24Vac. HD48V17ETC25: Digital active temperature and relative humidity transmitter, extended range. AISI304 steel probe, diameter 14mm and stem length 335mm, connected to the electronics enclosure through a 5m cable. Relative humidity range 0...100%RH, temperature range -40...+150°C. Analog outputs: 0…10V (0...100%RH) for RH and 0...10V (-40...+150°C) for temperature. Probe working range -40...+150°C. Power supply 16...40Vdc or 24Vac. HD48S17TC25L: Digital active temperature and relative humidity transmitter with LCD. AISI304 steel probe, diameter 14mm and stem length 335mm, connected to the electronics enclosure through a 5m cable. Relative humidity range 0...100%RH, temperature range -20...+80°C. RS485 output only. Probe working range -20...+80°C. Power supply 16...40Vdc or 24Vac. HD4877TO2: Digital active temperature and dew point transmitter for duct mounting. AISI304 steel probe, diameter 14mm and stem length 135mm, joined to the electronics enclosure. Dew point range -20...+80°C DP, temperature range -20...+80°C. Analog outputs: 4…20mA (-20...80°C DP) for DP and 4...20mA (-20...+80°C) for temperature. Probe working range -20...+80°C. Power supply 16...40Vdc or 24Vac. HD4977TO2: Digital passive (current loop) temperature and dew point transmitter for duct mounting. AISI304 steel probe, diameter 14mm and stem length 335mm, joined to the electronics enclosure. Dew point range -20...+80°C DP, temperature range -20...+80°C. Analog outputs: 4…20mA (-20...+80°C DP) for DP and 4...20mA (-20...+80°C) for temperature. Probe working range -20...+80°C. Power supply 12...40Vdc. Accessories HD48TCAL: The kit includes the RS27 serial connection cable, RS232 null modem, with 9-pole sub-D female connector for PC and 3-pole connector for transmitter COM port, and CD-ROM for Windows operating systems that guides the user in the relative humidity probe calibration procedure. The kit is for the models with analog output only. HD48STCAL: The kit includes the RS48 cable with built‑in USB/RS485 adapter and CD-ROM for Windows operating systems that guides the user in the relative humidity probe calibration procedure. The cable is provided with USB connector for the PC and 3 free wires on the instrument side. The kit is for the models with RS485 output only. HD75: 75% RH saturated solution for the verification of the relative humidity sensor, complete with thread for probes with Ø 14mm and Ø 26mm. HD33: 33% RH saturated solution for the verification of the relative humidity sensor, complete with thread for probes with Ø 14mm and Ø 26mm. HD9008.31: Wall flange with cable gland to fix Ø 14mm probes. PG16: AISI304 steel cable gland for Ø 14mm probes. P5: Stainless steel grid protection for Ø 14mm probes. P6: 20µ sintered stainless steel protection for Ø 14mm probes. P7: 10µ PTFE protection for Ø 14mm probes. P8: Stainless steel grid and Pocan protection for Ø 14mm probes.

HD 2717T...

The instruments measure: • Temperature in Celsius or Fahrenheit temperature scale • Relative humidity and calculate: • Absolute humidity • Mixing Ratio • Dew point All models have both current and voltage outputs. Some models are fitted with two control relays and one alarm relay, configurable by the user. All models are fitted with a multistandard RS232/RS485 serial port and an auxiliary RS232C standard serial output. The RS485 serial output allows the management of more than one device in a network. The models HD2717T... can be with or without LCD. The display shows on the first line the relative humidity or a derived parameter and on the second line the temperature in degrees Celsius or Fahrenheit. The data logger function allows to store the measures with a selectable storage interval. The instrument setup remains permanently stored, while the real time clock is protected by an apposite Lithium battery against temporary mains voltage interruptions. The power supply can be chosen, at the time of placing the order, between 24Vac/dc or universal 90...240Vac. Instrument versions and available probes

Relay HD2717Tx-x0 HD2717Tx-xR Type of probe HD2717T.xx HD2717TO.xx

Absent Custom LCD

Absent 2 control relays with change-over contact. 1 alarm relay with normally open contact.

Instrument with vertical probe S.TV or probe with cable S.TC. Instrument with horizontal probe S.TO.

Probes complete with SICRAM2 module for instruments HD2717T.xx S.TV Vertical probe L=130mm

The material of the S.TC...probes can be chosen between stainless steel AISI304 or POCAN plastic material.

HD 2717T… Transmitter, indicator, ON/OFF regulator, temperature and humidity data logger with interchangeable probe The instruments of the HD2717T... series are transmitters, indicators, and ON/OFF regulators with data logging functions, they measure temperature and humidity. The main feature of these instruments is their interchangeable probe. The probe can be replaced by the user without process interruption. Thus, the probe can be calibrated or repaired at a later time. The instrument is available in three different versions: with horizontal probe (S.TO), vertical probe (S.TV) or with remote probe (S.TC), having the probe connected to the electronics by means of a cable of various lengths. The S.TO and S.TV probes are made of stainless steel AISI304, the S.TC probes can be of stainless steel AISI304 or POCAN (plastic material). The probe is factory calibrated and ready to use, it is provided with a SICRAM2 module which stores the calibration data of the probe, allowing the interchangeability of the probes.

Version with display HD2717Tx.Dx

S.TC1.2 S.TC1.2P S.TC1.5 S.TC1.5P S.TC1.10 S.TC1.10P S.TC2.2 S.TC2.2P S.TC2.5 S.TC2.5P S.TC2.10 S.TC2.10P

Probe L=130mm with cable 2m Probe L=130mm with cable 2m (POCAN probe) Probe L=130mm with cable 5m Probe L=130mm with cable 5m (POCAN probe) Probe L=130mm with cable 10m Probe L=130mm with cable 10m (POCAN probe) Probe L=330mm with cable 2m Probe L=330mm with cable 2m ( POCAN probe) Probe L=330mm with cable 5m Probe L=330mm with cable 5m (POCAN probe) Probe L=330mm with cable 10m Probe L=330mm with cable 10m (POCAN probe)

Probes complete with SICRAM2 module for instruments HD2717TO.xx S.TO1 horizontal probe L= 130mm S.TO2 horizontal probe L= 330mm

Version without display HD2717T0.0R

Probe TO: HD2717TO.OR

Humidity

Display HD2717Tx-0x HD2717Tx-Dx

Technical specifics (@ 24Vac and 20°C) Inputs Temperature

Sensor Working range of the sensor Relative humidity %RH

Humidity

2 6

3 7

4 5 8 9

Accuracy of the measured physical quantities

PC: instrument connection with serial communication protocol RS232C.

ID=0 Line termination

RS232C 1 2 6

ID=1 + GND

+5Vdc

3 4 7 8

+ GND

Accuracy of the calculated physical quantities Line termination

-50 ... +200°C (-58 ...+392°F)

5 ... 98%RH -50 ... +150°C Working range of the (Special configurations up to 180°C sensor in temperature available on request) Dew point TD -50 ... +100°C Absolute humidity 0 ... 600g/m3 Mixing ratio 0 ... 2000g/kg of dry air Wet bulb temperature -50 ... +100°C Temperature Pt100 ±0.25°C ±2.5%RH (10...90%RH) Relative humidity %RH ±2.5%RH in the remaining range See table in the following chapter 3min with grid protection (at 20°C and 0.5m/s)

Response time

+5Vdc

5 9

390Ω

RS232C

Lmax=15m

220Ω

Type Baud Rate

Lmax=1200m 390Ω

Outputs Communications

220Ω

RS485

Converter RS232C/RS485

Schield

390Ω

Physical quantities

Measured Calculated

Connection PC / instrument with the RS485 communication protocol for distances up to 1200 m using the RS232C/RS485 converter. On both ends of the network, line termination have to be used. To polarize the line during periods of non transmission, resistors connected between the signal line and power line are used. If you need to connect over 32 instruments, insert a signal repeater between a group and the next one. At the beginning and at the end of each segment you should apply the line terminator. The data line should be kept separate from any power line in order to avoid interferences on the transmitted signal. The cable shield should be connected at both ends of the line. The cable should have the following characteristics: - Impedance 120 Ohm - Capacity <50pF/m - Resistance <100 Ohm/km - Section > 0.22mm2, (AVG24) The maximum cable length depends on the data transmission velocity and on the characteristics of the cable. Typically, the maximum length is 1200m. The data line should be kept separate from any power line in order to avoid interferences on the transmitted signal.

Analog outputs

Resolution Accuracy analog outputs In case of measuring error (exceeding of the operating limits, faulty or not connected probe,....) Relay

Working relay Alarm relay

RS232C and RS485 Multidrop 9600 baud 57600 baud non-permanent Temperature, relative humidity Dew point, absolute humidity, (mixing ratio). 4...20mA; 0...20mA 0...10Vdc; 2…10Vdc Current output: 500Ω max Voltage output: 100kΩ min 16bit ±0.05% f.s. @20°C Idc = 22mA Vdc = 11V 2 x 3A/250Vac Load resistance, 1 change-over contact 1 x 3A/250Vac Load resistance, 1 with normally open contact

Instrument 24Vdc / 24Vac 50…60Hz, ±10% 90 ... 240Vac 50…60Hz Average consumption 3W Data logger Storage capacity 9000 samples in max. 256 sessions Storage type Circular memory Temperature, relative humidity, dew point, Stored parameters absolute humidity, mixing ratio, analog outputs 1 and 2, relay status1, 2, 3. 1, 2, 5, 10, 20, 60 seconds, 2 and 4 Storage interval minutes Real time with Real time clock Type Lithium buffer battery Accuracy ±1min/month DeltaLog12 Software for Windows® 98 to Vista operating systems Display LCD Custom segment LCD Operating temperature -20…+60°C Relative humidity 0…90%RH - No condensate Ambient working conditions of the Static working pressure 12 bar max. electronics of the sensors Storage temperature -30…+80°C Housing LxHxW 143x154x61 Weight 600g Material ABS Degree of protection Electronics IP65

Terminal board

Wall fastening plate.

Humidity

Output types Load resistance

Power supply

Pt100 classe 1/3 DIN

Versions

Temperature (°C)

Accuracy of the Dew Point Td (°C) 10 2.50 2.84 3.34 4.16 5.28

-20 0 20 50 100

Relative Humidity (%) 30 50 1.00 0.71 1.11 0.78 1.32 0.92 1.64 1.12 2.07 1.42

70 0.58 0.64 0.75 0.90 1.13

90 -0.56 0.64 0.77 0.97

100 -0.50 0.62 0.74 0.91

Temperature (°C)

Accuracy of the absolute humidity (g/m3) 10 0.020 0.12 0.45 2.07 14.81

-20 0 20 50 100

Relative Humidity (%) 30 50 70 0.030 0.035 0.038 0.15 0.16 0.18 0.49 0.54 0.59 2.27 2.48 2.67 15.78 16.75 17.72

90 --0.20 0.64 2.87 18.57

100 --0.21 0.66 2.96 19.06

90 --0.15 0.55 3.25 ---

100 --0.15 0.58 3.42 ---

Temperature (°C)

Accuracy of the mixing ratio (g/kg) 10 0.020 0.09 0.37 2.04 19.06

-20 0 20 50 100

Relative Humidity (%) 30 50 70 0.022 0.026 0.029 0.11 0.12 0.13 0.41 0.46 0.51 2.32 2.61 2.90 36.00 75.9 228.9

Dimensions

to PC. Uses interchangeable SICRAM2 probes with microprocessor for the storage of the probe’s calibration data. Power supply 24Vac/dc or universal 90...240Vac. Includes software DeltaLog12, instructions manual. (Transmitters without display are supplied with serial cable RS27). Power supply, type of probe and accessories have to be specified at the time of placing the order. Models with vertical probe (S.TV) or separated probe with cable (S.TC) HD2717T.00: Model of without display and without relay. HD2717T.0R: Model of without display, with configurable control relays (2) and alarm relay (1). HD2717T.D0: Model of with custom display, without relay. HD2717T.DR: Model of with custom display, with configurable control relays (2) and alarm relay (1). Models for horizontal duct probe (S.TO) HD2717TO.00: Model without display and without relay. HD2717TO.0R: Model without display, with configurable control relays (2) and alarm relay (1). HD2717TO.D0: Model with custom display, without relay. HD2717TO.DR: Model with custom display, with configurable control relays (2) and alarm relay (1). Interchangeable temperature and humidity probes with SICRAM2 module, vertical S.TV or with cable S.TC S.TV: Vertical probe. Length of stem 130mm. The material of the S.TC...probes can be chosen between stainless steel AISI304 or POCAN plastic material. S.TC1.2: Probe with cable. Length of stem 130mm, length of the cable 2m. S.TC1.2P: Probe with cable. Length of stem 130mm, length of the cable 2m. Made of POCAN. S.TC1.5: Probe with cable. Length of stem 130mm, length of the cable 5m. S.TC1.5P: Probe with cable. Length of stem 130mm, length of the cable 5m. Made of POCAN. S.TC1.10: Probe with cable. Length of stem 130mm, length of the cable 10m. S.TC1.10P: Probe with cable. Length of stem 130mm, length of the cable 10m. Made of POCAN. S.TC2.2: Probe with cable. Length of stem 330mm, length of the cable 2m. S.TC2.2P: Probe with cable. Length of stem 330mm, length of the cable 2m. Made of POCAN. S.TC2.5: Probe with cable. Length of stem 330mm, length of the cable 5m. S.TC2.5P: Probe with cable. Length of stem 330mm, length of the cable 5m. Made of POCAN. S.TC2.10: Probe with cable. Length of stem 330mm, length of the cable 10m. S.TC2.10P: Probe with cable. Length of stem 330mm, length of the cable 10m. Made of POCAN. Interchangeable temperature and humidity probe with SICRAM2 module, horizontal S.TO S.TO1: Horizontal probe for instrument HD2717TO.xx. Length of stem 130mm. S.TO2: Horizontal probe for instrument HD2717TO.xx. Length of stem 330mm.

Versions HD2717Tx.xx for vertical probes or with cable

Ø14mm

Accessories RS27: RS232 null-modem serial connection cable with 9 poles sub-D 9 female connector and 3 pole connector for COM AUX port. (Included in the supply of the instruments without display). DeltaLog12: Further unit of software for PC connection, data download, instrument setup, and management of an instrument network. For operative systems Windows® 98 to Vista. HD75: 75%RH saturated solution for checking the relative humidity sensor, complete with thread for probes with Ø 14mm and Ø 26mm. HD33: 33%RH saturated solution for checking the relative humidity sensor, complete with thread for probes with Ø 14mm and Ø 26mm. HD9008.21.1: Flange with support, Ø 26mm hole for the installation of S.TC probes in vertical position, 250mm distance from the wall. The probes of the series S.TC require the adapter HD9008.26/14 from Ø 26mm to Ø 14mm. HD9008.21.2: Flange with support, Ø 26mm hole for the installation of S.TC in vertical position, 125mm distance from the wall. The probes of the series S.TC require the adapter HD9008.26/14 from Ø 26mm to Ø 14mm. HD9008.26/14: Adapter from Ø 26mm to Ø 14mm for the supports HD9008.21.1 and HD9008.21.2, for probes of the series S.TC. HD9008.31: Wall flange with cable outlet to fix probes with Ø 14mm. PG16: Stainless steel gland (AISI304) for probes with Ø 14mm. P5: Stainless steel grid protection for probes Ø 14mm. P6: 20µ sintered stainless steel protection for probes Ø 14mm. P7: 10µ PTFE protection for probes Ø 14mm. P8: Stainless steel grid and Pocan protection for probes Ø 14mm.

H D2 7 1 7 T x . x x

Version HD2717TO... for horizontal probes Ordering codes HD2717T0…: Transmitter, indicator, and ON/OFF regulator for temperature and humidity, with data logging functions. Fitted with 2 analogue current outputs (0...20mA and 4...20mA) or voltage outputs (0...10Vdc and 2...10Vdc). RS232/RS485 serial ports for connection

Relay 0 = without relay R = with relay Display 0 = without display D = with display Tipo di sonda T = Model for vertical probe or with cable (S.TV, S.TC) TO = Model for horizontal probe (S.TO) Humidity

Humidity

Accuracy of the calculated physical quantities The accuracy of the calculated physical quantities depends on the accuracy of the relative humidity and temperature calibration. The provided values refer to an accuracy of ±2.5%RH, ±0.25°C, 1013.25mbar.

HD2817T...

of the probes. The instruments measure: • Temperature in Celsius or Fahrenheit temperature scale • Relative humidity and calculate: • Dew point • Absolute humidity • Mixing Ratio All models have both current and voltage outputs. Some models are fitted with two control relays and one alarm relay, configurable by the user. All models are fitted with a multistandard RS232/RS485 serial port and an auxiliary RS232C standard serial output. The RS485 serial output allows the management of more than one device in a network. The models HD2817T... are fitted with a large graphic backlit LCD (128x64 pixel). The display shows contemporaneously three measured physical quantities or the real time graphic of one of the measured quantities. The data logger function allows to store the measures with a selectable storage interval. The instrument setup remains permanently stored, while the real time clock is protected by an apposite Lithium battery against temporary mains voltage interruptions. The power supply can be chosen, at the time of placing the order, between 24Vac/ dc or universal 90...240Vac. Instrument versions and available probes Relay HD2817Tx.D0

Absent 2 control relays with change-over contact. 1 alarm relay with normally open contact.

HD2817Tx.DR Type of probe HD2817Tx.Dx HD2817TO.Dx

HD 2817T… Transmitter, indicator, ON/OFF regulator, temperature and humidity data logger with interchangeable probe The instruments of the HD2817T... series are transmitters, indicators, and ON/OFF regulators with data logging functions, they measure temperature and humidity. They are fitted with a graphic 128x64 backlit display. The main feature of these instruments is their interchangeable probe. The probe can be replaced by the user without process interruption. Thus, the probe can be calibrated or repaired at a later time. The instrument is available in three different versions: with horizontal probe (S.TO), vertical probe (S.TV) or with remote probe (S.TC), having the probe connected to the electronics by means of a cable of various lengths. The S.TO and S.TV probes are made of stainless steel AISI304, the S.TC probes can be of stainless steel AISI304 or POCAN (plastic material). The probe is factory calibrated and ready to use, it is provided with a SICRAM2 module which stores the calibration data of the probe, allowing the interchangeability

Instrument with vertical probe S.TV or probe with cable S.TC. Instrument with horizontal probe S.TO.

Probes complete with SICRAM2 module for instruments HD2817Tx.Dx S.TV Vertical probe L= 130mm The material of the S.TC...probes can be chosen between stainless steel AISI304 or POCAN plastic material. S.TC1.2 Probe L=130mm with cable 2m S.TC1.2P Probe L=130mm with cable 2m (POCAN probe) S.TC1.5 Probe L=130mm with cable 5m S.TC1.5P Probe L=130mm with cable 5m (POCAN probe) S.TC1.10 Probe L=130mm with cable 10m S.TC1.10P Probe L=130mm with cable 10m (POCAN probe) S.TC2.2 Probe L=330mm with cable 2m S.TC2.2P Probe L=330mm with cable 2m ( POCAN probe) S.TC2.5 Probe L=330mm with cable 5m S.TC2.5P Probe L=330mm with cable 5m (POCAN probe) S.TC2.10 Probe L=330mm with cable 10m S.TC2.10P Probe L=330mm with cable 10m (POCAN probe) Probes complete with SICRAM2 module for instruments HD2817TO.xx S.TO1 horizontal probe L= 130mm S.TO2 horizontal probe L= 330mm

Wall flange with grommet for probe Ø 14 mm

HD2817TC.Dx

Humidity

HD2817TO.Dx

Sonda TO: HD2817TO1.DR

Technical specifics (@ 24Vac and 20°C) Inputs Temperature

Sensor Working range of the sensor Relative humidity %RH

Humidity

2 6

3 7

4 5 8 9

Accuracy of the measured physical quantity

PC: instrument connection with serial communication protocol RS232C.

Accuracy of the calculated physical quantity ID=0 Line termination

RS232C 1 2 6

ID=1 + GND

+5Vdc

3 4 7 8

+ GND

Line termination

+5Vdc

5 9

390Ω

RS232C

Lmax=15m

220Ω

Converter RS232C/RS485

Lmax=1200m 390Ω

Shield

390Ω

See table in the following chapter 3min with grid protection (at 20°C and 0.5m/s)

Type Baud Rate

220Ω

RS485

0 ... 100%RH -50 ... +150°C Working range of the (Special configurations up to 180°C sensor in temperature available on request) Dew point TD -50 ... +100°C Absolute humidity 0 ... 600g/m3 Mixing ratio 0 ... 2000g/kg of dry air Wet bulb temperature -50…+100°C Temperature Pt100 ±0.25°C ±2.5%RH (10...90%RH) Relative humidity %RH ±2.5%RH in the remaining field

Response time Outputs Communications

Physical quantities

Measured Calculated

Connection PC / instrument with the RS485 communication protocol for distances up to 1200 m using the RS232C/RS485 converter. On both ends of the network, line termination have to be used. To polarize the line during periods of non transmission, resistors connected between the signal line and power lien are used. If you need to connect over 32 instruments, insert a signal repeater between a group and the next one. At the beginning and at the end of each segment you should apply the line terminator. The data line should be kept separate from any power line in order to avoid interferences on the transmitted signal. The cable shield should be connected at both ends of the line. The cable should have the following characteristics: - Impedance 120 Ohm - Capacity <50pF/m - Resistance <100 Ohm/km - Section > 0.22mm2, (AVG24) The maximum cable length depends on the data transmission velocity and on the characteristics of the cable. Typically, the maximum length is 1200m. The data line should be kept separate from any power line in order to avoid interferences on the transmitted signal.

Analog outputs

Number Output types Load resistance Resolution Accuracy analog outputs In case of measuring error (exceeding of the operating limits, faulty or not connected probe,....)

Relay

-50 ... +200°C (-58 ...+392°F)

Control relay Alarm relay

RS232C and RS485 Multidrop 9600 baud 57600 baud non-permanent Temperature, relative humidity Dew point, absolute humidity, mixing ratio. 3 4...20mA; 0...20mA 0...10Vdc; 2…10Vdc Current output: 500Ω max Voltage output: 100kΩ min 16bit ±0.05% f.s. @20°C

Humidity

Pt100 classe 1/3 DIN

Idc = 22mA Vdc = 11V 2 x 3A/250Vac Load resistance, 1 change-over contact 1 x 3A/250Vac Load resistance, 1 with normally-open contact

Instrument 24Vdc / 24Vac 50…60Hz, ±10% 90 ... 240Vac 50…60Hz Average consumption 3W Data logger Storage capacity 9000 samples in max. 256 sessions Storage type Circular memory Dew point, temperature, relative humidity, Stored parameters absolute humidity, mixing ratio, analog outputs 1 and 2, relay status 1, 2, 3. Storage interval 1, 2, 5, 10, 20, 60 seconds, 2 and 4 minutes Real time with Real time clock Type Lithium buffer battery Accuracy ±1min/month DeltaLog12 Software for Windows® 98 to Vista operating systems Display Graphic backlit LCD 128x64 pixel Ambient working Operating temperature -20…+60°C conditions of the Relative humidity 0…90%RH - No condensate electronics Static working pressure 12 bar max. of the sensors Storage temperature -30…+80°C Housing LxHxW 143x154x61 Weight 600g Material ABS Degree of protection Electronics IP65 Power supply

Terminal board

Wall fastening plate

Versions

Accuracy of the Dew Point Td (°C) 10 2.50 2.84 3.34 4.16 5.28

Temperature (°C)

-20 0 20 50 100

Relative Humidity (%) 30 50 1.00 0.71 1.11 0.78 1.32 0.92 1.64 1.12 2.07 1.42

70 0.58 0.64 0.75 0.90 1.13

90 -0.56 0.64 0.77 0.97

100 -0.50 0.62 0.74 0.91

Relative Humidity (%) 30 50 70 0.030 0.035 0.038 0.15 0.16 0.18 0.49 0.54 0.59 2.27 2.48 2.67 15.78 16.75 17.72

90 --0.20 0.64 2.87 18.57

100 --0.21 0.66 2.96 19.06

90 --0.15 0.55 3.25 ---

100 --0.15 0.58 3.42 ---

Accuracy of the absolute humidity (g/m3) 10 0.020 0.12 0.45 2.07 14.81

Temperature (°C)

-20 0 20 50 100

Accuracy of the mixing ratio (g/kg) 10 0.020 0.09 0.37 2.04 19.06

Temperature (°C)

-20 0 20 50 100

Relative Humidity (%) 30 50 70 0.022 0.026 0.029 0.11 0.12 0.13 0.41 0.46 0.51 2.32 2.61 2.90 36.00 75.9 228.9

Models with vertical probe (S.TV) or separated probe with cable (S.TC) HD2817T.D0: Model without relay. HD2817T.DR: Model with configurable control relays (2) and alarm relay (1). Models for horizontal duct probe (S.TO) HD2817TO.D0: Model without relay. HD2817TO.DR: Model with configurable control relays (2) and alarm relay (1). Interchangeable temperature and humidity probes with SICRAM2 module, vertical S.TV or with cable S.TC S.TV: Vertical probe. Length of stem 130mm. The material of the S.TC...probes can be chosen between stainless steel AISI304 or POCAN plastic material. S.TC1.2: Probe with cable. Length of stem 130mm, length of the cable 2m. S.TC1.2P: Probe with cable. Length of stem 130mm, length of the cable 2m. Made of POCAN. S.TC1.5: Probe with cable. Length of stem 130mm, length of the cable 5m. S.TC1.5P: Probe with cable. Length of stem 130mm, length of the cable 5m. Made of POCAN. S.TC1.10: Probe with cable. Length of stem 130mm, length of the cable 10m. S.TC1.10P: Probe with cable. Length of stem 130mm, length of the cable 10m. Made of POCAN. S.TC2.2: Probe with cable. Length of stem 330mm, length of the cable 2m. S.TC2.2P: Probe with cable. Length of stem 330mm, length of the cable 2m. Made of POCAN. S.TC2.5: Probe with cable. Length of stem 330mm, length of the cable 5m. S.TC2.5P: Probe with cable. Length of stem 330mm, length of the cable 5m. Made of POCAN. S.TC2.10: Probe with cable. Length of stem 330mm, length of the cable 10m. S.TC2.10P: Probe with cable. Length of stem 330mm, length of the cable 10m. Made of POCAN. Interchangeable temperature and humidity probe with SICRAM2 module, horizontal S.TO S.TO1: Horizontal probe for instrument HD2817TO.xx. Length of stem 130mm. S.TO2: Horizontal probe for instrument HD2817TO.xx. Length of stem 330mm.

Dimensions

Versions HD2817Tx.Dx for vertical probes TV or with cable TC

Accessories RS27: RS232 null-modem serial connection cable with 9 poles sub-D 9 female connector and 3 pole connector for COM AUX port. (Included in the supply of the instruments without display). DeltaLog12: Further unit of software for PC connection, data download, instrument setup, and management of an instrument network. For operative systems Windows® 98 to Vista. HD75: 75%RH saturated solution for checking the relative humidity sensor, complete with thread for probes with Ø 14mm and Ø 26mm. HD33: 33%RH saturated solution for checking the relative humidity sensor, complete with thread for probes with Ø 14mm and Ø 26mm. HD9008.21.1: Flange with support, Ø 26mm hole for the installation of S.TC probes in vertical position, 250mm distance from the wall. The probes of the series S.TC require the adapter HD9008.26/14 from Ø 26mm to Ø 14mm. HD9008.21.2: Flange with support, Ø 26mm hole for the installation of S.TC in vertical position, 125mm distance from the wall. The probes of the series S.TC require the adapter HD9008.26/14 from Ø 26mm to Ø 14mm. HD9008.26/14: Adapter from Ø26mm to Ø14mm for the supports HD9008.21.1 and HD9008.21.2, for probes of the series S.TC. HD9008.31: Wall flange with cable outlet to fix probes with Ø 14mm. PG16: Stainless steel gland (AISI304) for probes with Ø 14mm. P5: Stainless steel grid protection for probes Ø 14mm. P6: 20µ sintered stainless steel protection for probes Ø 14mm. P7: 10µ PTFE protection for probes Ø 14mm. P8: Stainless steel grid and Pocan protection for probes Ø 14mm.

Ø14mm

H D2 8 1 7 T x . D x Relay 0 = without relay R = with relay 13

Version HD2817TOx.Dx for horizontal probes Ordering codes HD2817T...: Transmitter, indicator, and ON/OFF regulator for temperature and humidity, with data logging functions. Fitted with 2 analogue current outputs (0...20mA and 4...20mA) or voltage outputs (0...10Vdc and 2...10Vdc). RS232/ RS485 serial ports for connection to PC. Uses interchangeable SICRAM2 probes with microprocessor for the storage of the probe’s calibration data. Visualizes the data on a large graphic backlit LCD. Power supply 24Vac/dc or universal 90...240Vac. Includes software DeltaLog12, instructions manual. Power supply, type of probe and accessories have to be specified at the moment of placing the order.

Humidity

Probe type T = Model for vertical probe or with cable (S.TV, S.TC) TO = Model for horizontal probe (S.TO)

HD2001 HD2001.1 HD2001.2 HD2001.3

Table 1 Input

Output

Model

Temperature % RH

Pressure

Air speed

RS232-RS485 Open collector output

Analog outputs 0…20mA, 4…20mA, 0…10Vdc, 2…10Vdc

HD2001

---

HD2001.1

---

HD2001.2

---

HD2001.3

---

Display description

CAL

8 MAX

RS 232

MIN AVG

°C

HD 2001, HD 2001.1, HD 2001.2, HD 2001.3 INDICATORS OF TEMPERATURE, HUMIDITY, PRESSURE AND AIR SPEED ENVIRONMENTAL MEASUREMENTS WITH DIGITAL OR ANALOG OUTPUT The devices of the HD2001 series…, according to the models, measure temperature, relative humidity, barometric pressure and, for the model HD2001.2, air speed by hot-wire probes. All the models are provided with RS232C or RS485 serial output and the management of more than one device connected to a network. In addition, all the models are fitted with an open collector type low-activated configurable alarm output. The HD2001.1 and HD2001.3 model have three configurable analog outputs: 4…20mA or 0…20mA current output, or 0…10Vdc or 2…10Vdc voltage output. The choice of output type is made by means of the jumpers set on the board. Wind speed measurement is detected by the HD2001.2 model with a hot-wire probe set on the upper part of the instrument. The large display with dual indication on all models allows one of the process variables on the first line and the temperature on the second line, to be displayed. Tables 1 and 4 show the main characteristics of the three models.

RS485 RS232C 24Vac 230Vac 485- GND TX

≈

485+

NTC GND %RH DOUT Pres Temp

%RH

3 4 5 6 7 8 9 10 11 12 13 14 15 16

Fig.1 Position of the fixing holes.

Fig.2 Hot-wire probe mod. HD2001.2.

The display constantly shows the measurements of two values. While in the first line ② the value can be selected through the MEAS button, the second line ⑤ below always shows the temperature. During measurement, the first line ⑥ displays the unit of measurement of the main variable; inside the menu it provides information about the active item. On the right-hand side of the display there are four symbols: • The two arrows ⑦ and ⑧ are lit when the pressure measured by the barometric sensor differs at least 1 mbar from that measured 6 hours previously; • The framed arrow ⑨ i indicates the pressure drop alarm and is lit when a pressure drop occurred during the previous 6 hours which was higher than or equal to the BAR DROP value, which can be set in the menu within the range 1…9 mbar; • The bell symbol ⑩ is lit when any of the alarms is exceeded (see paragraph “Programming the alarms”). Symbols • CAL ① turns on during calibration of the RH sensor (see the paragraph on calibration). • MAX MIN AVG ③ indicate that the main measurement ② reached the maximum (MAX), minimum (MIN) or average (AVG) value since last reset (see the function of the NORM/ MATH button). • RS232 ④ is turned on when the instrument is connected to a PC. Keyboard description

MEAS MENU

ENTER

UNIT

NORM MATH

CLR ESC

HD2001 Transmitter

MEAS By repeatedly pressing this button the main variable displayed in the first line of the display can be selected. This function is cyclic: %RH >> Barometric Pressure >> Wind speed (for the HD2001.2 model) >> %RH… The temperature measured is always visible in the second line of the display. UNIT This button selects the unit of measurement or the secondary variable correlated to the main variable displayed in the first line of the display. Humidity: %RH (relative humidity %) >> g/m3 (absolute humidity) >> g/kg (mixing ratio) >> Tdew (Dew Point temperature in °C or °F). Pressure: hPa >> kPa >> mbar. Wind speed: m/s >> ft/min. NORM/MATH This tool provides the chance to display the maximum (MAX), average (AVG) and minimum (MIN) value for all calculated variables from the moment the MATH button is pressed. This function memorizes the values of the previous measuring session and treats them as initial values for the new calculations. Press the CLEAR/ESC button to reset the memory. CLR/ESC It resets the initial values during measurement of the maximum, average, minimum value. Within the menu, it allows the current function to be exited without the changes being saved. Humidity

Humidity

ENTER Within the menu confirms the current selection and returns to the measurement. To confirm a parameter without exiting the menu, all that needs to be done is to display it and continue using the MENU button. UP Within the menu, it increases the current value. DOWN Within the menu, it decreases the current value. MENU Using this button the instrument’s menu can be accessed: the single items are described in the upper part of the display by flowing text. To modify an individual item, use the arrows; to confirm it and remain in the menu, press the MENU button; to confirm it and return to measurement, press the ENTER button. NOTE: to help clarity, in the following explanation the terms appearing on the display are indicated by capital letters in bold (e.g. TEMP indicates the temperature, CEN means Centigrade). 1. TEMPerature CENtigrade or FAHRenheit: Selection of the unit of measurement for the temperature between Centigrade or Fahrenheit. 2. BAUD RATE: Selection of the data transmission speed for data communication using the RS232C or RS485 serial port. Various values are available: 300, 1200, 2400, 4800 and 9600. We recommend using the maximum speed of 9600 baud. 3. PRiNT AUTO: 1 = YES, 0 = NO. Enables (= 1) or disables (= 0) the continuous data transmission on the serial port (continuous printing) according to a frequency equal to the interval set in the item INTV SEC. Date, time, temperature, relative humidity, absolute humidity, mixing ratio, dew point, barometric pressure, wind speed (in m/s or in ft/min) are printed. The units of measurement are the same as those used on the display. 4. INTerVal SEConds. Print interval in seconds. 5. YEAR: Menu item to set the year. The date is kept until the instrument is on. If the instrument is turned off when not connected to a PC, the date must be reset from the keyboard. If it is connected to a PC and a power failure occurs, when reconnecting the power the PC automatically updates the instrument date without needing to use the keyboard. 6. MONth: Current month. 7. DAY: Current day. 8. HOUR: Current hour. 9. ESC ZEROs SEConds, MINutes: Current minutes. The seconds can be reset by pressing ESC. In order to set the hour precisely, simply set it one minute in advance and when the new minute strikes, press ESC. For example, if it is 11:20.10 and you wish to correct the time, set it to HOUR=11, MIN=21 and when the new minute strikes (21), press ESC: thus the time is synchronized to the second at 11:21.00. 10. NUMber INSTument ADDRess: Sets the identification (ID) of the instrument to be able to use it within a network. The numbers from 0 (first instrument) to 255 are available. For the details see the paragraph dealing with serial communication. 11. SET ALaRM 1 = YES, 0 = NO: Enables (=1) or disables (=0) the open collector lowactivated alarm output. The settings submenu can be entered using the upward arrow (UP). For the details see the paragraph on alarm programming. 12. ENaBLe CALibration: Enables the calibration of the relative humidity sensor. For the details see the paragraph on calibration. Installation and connections The instrument is set up to work indoors. The pressure and humidity sensors are set downwards so that the accumulation of dust and dirt is reduced to the minimum. Four holes fix the container: the position of the holes is outlined in the figure.

Serial communication and instruments’ network The instrument is fitted with RS232C and Multidrop RS485 serial ports for connection to a PC. Thanks to the RS485 protocol it is possible to connect more than one instrument to form a network managed by the DeltaMet8 software provided. The protocol is selected by using dip-switch no. 1 set on the display board. When only one instrument is used, set at a maximum distance of 15 m from the PC, use the RS232C serial connection, as this port, unlike RS485, is present on all PCs. To cover longer distances (until 1200 m) or to create a network of instruments, the RS485 port must be used with a special RS232/RS485 converter. A network is formed by a maximum of 256 devices tandem-connected through a shielded twisted pair cable. The first element of the network connected to the PC may use the RS232C protocol and can be an interface between the PC and the rest of the network: so using an RS232C/RS485 converter can be avoided (only if the first instrument is less than 15 m away from the PC). In order that communication along the network work correctly, each instrument needs to be identified by an ID number differing from all the others. On the first start up, after commuting the protocol selection dip-switch, the ID of the instrument is automatically set to “0” if the RS232C protocol is selected, and set to “1” if the RS485 protocol is selected: using the menu item “NUMber INSTument ADDRess” these IDs can be changed and memorized in order to set up new components on the network. To maximally speed up the data transmission, we recommend using the highest baud rate available of 9600 baud: you should only reduce this value when communication problems occur. Programming the alarms Each of the three HD2001 models… is fitted with an open collector low-activated alarm output. This output commutes when enabled if any of the limits, associated with the measurement variables of all the instrument’s values, exceeds the maximum level or goes below the minimum level. The activation and deactivation of the alarm effects only the physical output and not the display indication which in contrast always remains enabled. To avoid one of the variables intervening, simply set the limits to the extreme working limits of the measurement range. For each physical value, except for pressure drop, the lower level (LOW) and the upper level (HIGH) with LOW smaller than HIGH must be entered. Setting Browse the menu items until the item SET ALaRM 1 = YES, 0 = NO: press the up arrow (UP) to access the setting of the limits. The writing changes and becomes ReLAY ALaRM ENaBLed (Alarm output enabled): to enable the output maintaining the previous settings, press ENTER. To enable the output and modify the settings, press MENU: after this, the lower (LOW) and upper (HIGH) alarm limits for each physical value available will be prompted. For example, “SET TEMPerature LOW” sets the minimum alarm limit of the temperature; using the arrows enter the desired value and then proceed with the MENU button to modify the other parameters. Pressing ESC, the current parameter on display is reset to the initial value. The variables are listed in this order: temperature, relative humidity, dew point, barometric pressure, pressure drop (DROP) in the last 6 hours and, for the HD2001.2 model, wind speed.

Model HD2001.2 The HD2001.2 model is fitted with an omnidirectional hot-wire probe: the sensor set on the top of the probe is very delicate and must be protected with the special frame provided with the instrument. During transportation, the sensor is closed into a cylinder screwed on the end part of the probe: during installation, unscrew this cylinder and screw the protection frame in its place. In order to measure the wind speed accurately, the instrument must be set at a certain distance from the wall using the HD2001.2.30 pole, as indicated in fig. 3.

HD2001.1

HD2001: Temperature, humidity, pressure, serial output.

Humidity

HD2001.1: Temperature, humidity, pressure, serial and analogue output.

HD2001

ID=1

ID=0 RS485

+Vdc

ON 1 2

RS485

RS232C

ID=2

RS232C

RS485

RS232C

TX 485- GND DOUT 485+ RX

485- GND TX DOUT 485+ RX

3 4 5 6 7 8

390Ω

RS232 RS485

0mA 4mA

220Ω

RS232C 1

2 6

3 7

4 8

5 9

390Ω 220Ω

29.5

Lmax = 15m

29.5

Lmax = 1200m

SHIELD

Line termination

Fig.4 Selection dip switch for protocol RS232/ RS485 and analogue output.

HD2001.2.30

165

Line termination

Fig.7 RS485 network in which the conversion function is performed by first instrument of the network. The instrument that is connected directly ID=1 to PC is identified by ID=2 the ID = 0 and must be RS232C RS232C connection, you placed no more than 15m away from the PC. If RS485 your PC does not haveRS485 the RS232 485-PC GND 485- GND must insert a USB/RS232 converter between the and theTXfirst instrument of theTXnetwork. +Vdc

ID=1

ID=0

+Vdc

RS485

RS232C

TX 485- GND DOUT 485+ RX

220Ω

RS232C 2 6

3 7

4 8

5 9

390Ω

USB / RS485

RS232C

RS485

Include protection GND RS232C diode when you RS232C / RS485 1 2 3 4 5 power a relay

RS232C

TX 485- GND DOUT 485+ RX

3 4 5 6 7 8

3 4 5 6 7 8 RS232C

3 4 5 6 7 8

DOUT 220Ω

SHIELD Lmax=15m

Lmax = 15m

Lmax = 1200m

3 4 5 6 7 8 P

RS485 RS232C 24Vca 230Vca 485- GND TX

220Ω

≈ �

485+

Converter RS232C/RS485 o USB/RS485 24Vca±10% (on request) o 230Vca ±10% (on request)

Temp Input

GND

Press Input

Regulator / Indicator

Line termination

Fig.8 Typical connection for alarm relay activation

Fig.5 Connection to PC/ device with RS232C protocol.

Fig.9 Connection example of the analogue output to an indicator/regulator.

ID=2

RS232C

RS485

Humidity

ID=1

%RH220Ω

%RH Input

SHIELD

Line termination

RS485

NTC GND %RH DOUT Pres Temp

Line termination

Lmax = 15m (RS232C)

%RH

I V

Lmax = 1200m SHIELD 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16

SHIELD

390Ω

+Vdc 30Vmax

3 4 5 6 7 8

1 2 3 4 5 6 7 8 9

3 4 5 6 7 8

390Ω

ID=2

ID=0

485- GND 485- GND TX TX DOUT DOUT RX RS232C 485+ RS485 485+ RX

390Ω

DOUT

485+

Line termination

Lmax = 5m (USB)

RS485

DOUT

485+

Fig.3 Support for model HD2001.2

RS232C

485- GND TX DOUT 485+ RX

3 4 5 6 7 8

+Vdc Lmax = 5m (USB)

2 6

3 7

4 8

220Ω

RS232C / RS485

390Ω

%RH RS485 RS232C 24Vca 230Vca 485- GND TX

≈

220Ω

GND

RS232C 1

HD2001 HD2001.1 HD2001.3

390Ω

USB / RS485

175

Line termination

Lmax = 1200m

SHIELD

122

SHIELD

485+

I V

GND DOUT

NTC %RH Temp

%RH

56 1

3 4 5 6 7 8 9 10 11 12 13 14 15 16

Line termination

Fig.6 PC Connection with the RS485 communication protocol for distances up to 1200 m. The instruments are tandem-connected through a shielded twisted pair cable for signals and a third wire for grounding. Both ends of the network need to have resistors for impedance matching (Line terminations). To polarize the line during periods of non-transmission, resistors connected between the signal and the power line have to be used. For PC connection it is necessary to use a RS232/485 or USB/RS485 converter.

Current and voltage analog outputs for the HD2001.1 and HD2001.3 models The models are provided with current or voltage analog outputs, one for each value, each associated with a physical value measured by the instrument. The available outputs are 0…20mA, 4…20mA, 0…10Vdc and 2…10Vdc. The relation between output range (current and voltage) and input range is fixed: the output minimum and maximum values are associated with the minimum and maximum values of the input variables.

120

Converter RS232C/RS485 o USB/RS485

MEAS MENU

UNIT

NORM MATH

ENTER

-20 … +80°C 0…100%RH 600…1100mbar

4...20mA 0...20mA 0...10Vdc 2 … 10Vdc

Table 2

The type of output is selected using dip-switch no. 2 set on the display card (see fig. 4) and the jumpers set near the analog output terminals (see fig. 9): the various combination are outlined in the following table in which the relevant output is reported according to the position of the switches.

%RH Input

HD2001 Transmitter

Regulator / Indicator HD2001.2

Fig.11 Connection example to an indicator/ regulator with analogue input HD2001.3. Fig.10 Dimensions. Table 3 Dip-switch no. 2

Output selected Analog outputs

Temp Input

CLR ESC

Position of the jumper HD2001.1 and HD2001.3 Inputs / analog outputs ratio Inputs

24Vca±10% (standard) o 230Vca ±10% (on request)

Lmax = 15m (RS232C)

0mA

4mA

0 … 20mA

0 … 10Vdc

4 … 20mA

2 … 10Vdc

It is possible to use voltage or current outputs contemporarily provided that they belong in the first two columns or the last two of table 3. For example the outputs 0…20mA and 0…10Vdc or 4…20mA and 2…10Vdc can coexist, but for example, the outputs 0…20mA and 4…20mA cannot coexist. For correct functioning, we recommend observing the load specifications concerning the analog outputs reported in the technical information. Calibration of the relative humidity sensor HD2001 - HD2001.1 - HD2001.3 ATTENTION: to calibrate the relative humidity sensor correctly it is fundamental to know and abide by the physical phenomena on which the measurement is based: this is the reason we recommend evaluating a new calibration carefully before intervening and, in case it is to be performed, we recommend following Humidity

Calibration of the humidity sensor offset: all that is reported below rigorously. 1. Enter the probe in the container with the saturated solution at 75% relative humidity at about 20°C. Wait at least 30 minutes. 2. Using the MENU button select the item “ENaBLe CALibration”, press the UP arrow until reaching #51: the calibration procedure is started automatically. 3. The display indicates “CAL RH”. Using the arrows, adjust the relative humidity value indicated on the display according to the temperature of the calibration salts: the value to be set is shown on the container’s label of the saturated salt used. 4. Wait a few minutes to ensure the reading is stable. 5. Press ENTER to confirm this value. The instrument returns to normal measurement. 6. Remove the probe from the container and close it immediately using its lid. Calibration of the humidity sensor slope: 1. Enter the probe in the container with the saturated solution at 33% of relative humidity. Wait at least 30 minutes. 2. Using the MENU button select the item “ENaBLe CALibration”, press the UP arrow until reaching #51: the calibration procedure is started automatically. 3. The display indicates “CAL RH”. Using the arrows, adjust the relative humidity value indicated on the display according to the temperature of the calibration salts: the value to be set is shown on the container’s label of the saturated salt used. 4. Wait a few minutes to ensure the reading is stable. 5. Press ENTER to confirm this value. The instrument returns to normal measurement. 6. Remove the probe from the container and close it immediately using its lid. Note: the calibration of the sensor is usually carried out on both points, first at 75%RH and then at 33%RH, but can be carried out on one of the points only, to regulate a small departure at 75% or 33%, for example. On exiting calibration the instrument checks if the procedure was carried out correctly and signals any anomaly by making the CAL symbol blink. If the blinking occurs at the end of the calibration of one of the two points, it means the other point also needs calibrating.

Table 4 - Technical information (@ 24Vac and 25°C) HD2001 Temperature

Sensor

Humidity

Sensor capacity %RH working range

0…100%RH

TD working range

-20 … +80°C

Accuracy Working range

Wind speed

Accuracy Fluid contacting the membrane Type of sensor

----

Hot-wire

----

Working range

----

0…5m/s

----

°C working range

----

-20 … +80°C

----

Accuracy

----

±0.15m/s @25°C

----

Communications Type Maximum Baud Rate Alarm Type of output

RS232C and Multidrop RS485 9600 baud Open collector (low-activated) 30Vdc

Maximum power

200mW Temperature, dew point Temperature, %RH, dew point %RH, TD, barometric Temperature, %RH, TD, barometric pressure, pressure, pressure dew point TD pressure drop. drop and wind speed 4...20mA 4...20mA 0...20mA 0...20mA ----0...10Vdc 0...10Vdc 2 … 10Vdc 2 … 10Vdc Current output: Current output: 500Ω max 500Ω max ----Voltage output: Voltage output: 100kΩ min 100kΩ min --16bit --16bit

Type of outputs

24Vac ±10% 50…60Hz (230Vac ±10% on request)

Power Software Environmental Temperature range conditions Humidity range Protection degree

Humidity

----

Maximum voltage

Resolution

Air – Non corrosive gas - No liquids

Outputs

Load resistance

HD2001.2

±2.0% (10…90%RH), ±2.5%RH in the remaining range 600…1100mbar - 600…1100hPa ---60.0…110.0kPa ---±0.5mbar @25°C

Pressure

Analog

HD2001.2

HD2001.3

-20 … +80°C ±0.3°C in the range 0…+70°C ±0.4°C outside this range 300pF

Accuracy

Variables

HD2001.2: Temperature, humidity, pressure, air speed, RS232 / RS485 output.

HD2001.2 NTC 10kΩ

Working range

Note: the calibration of the relative humidity of the model HD2001.2 has to be performed in a chamber with controlled humidity and temperature conditions.

HD2001.2.30

HD2001.1

Inputs

DeltaMet8 -20 … +80°C 0…90%RH - (without condensation) Electronic IP67

ORDER CODES HD2001 Temperature, relative humidity, barometric pressure indicator. Open collector alarm output and RS232C and RS485 PC connection. DeltaMet8 software for PC connection. HD2001.1 Active indicator/transmitter of temperature range, relative humidity, barometric pressure with selectable 0…20mA, 4…20mA, 0…10V e 2…10V outputs. Open collector alarm output and RS232C and RS485 PC connection. DeltaMet8 software for PC connection. HD2001.2 Temperature range, relative humidity, barometric pressure and wind speed indicator. Open collector alarm output and RS232C and RS485 PC connection. DeltaMet8 software for PC connection. HD2001.3 Temperature, relative humidity active indicator/transmitter with selectable 0..20mA, 4..20mA, 0..10V and 2..10V outputs. Open collector alarm output and RS232C and RS485 PC connection. DeltaMet8 software for PC connection. HD2001.2.30: Wall mounting support for HD2001.2. HD75 Saturated salt solution 75% R.H. Adapter M 12x1. HD33 Saturated salt solution 33% R.H. Adapter M 12x1

HD 9008TRR HD 9009TRR HD 9007

An out-of-standard temperature operating range can be requested when placing the order. Important Warning: probes work in the -40°C…+80°C temperature range. Outside this range data are not correct; electronics is designed to operate in this range. SENSORS The humidity sensor is a condenser which dielectric is made up by an hygroscopic polymer. As water dielectric constant is approximately 80, you’ll get a strong change in capacity as the humidity content of this polymer changes. The advantages of this kind of sensor are: good linearity, insensitivity to temperature changes, fast response time and long-lasting life. The sensor temporary looses its accuracy if some condensation develops on its surface (the transmitted value is higher than the real one because of an increase in effective capacity). The temperature sensor is a Platinum resistance thermometer (100Ω @0°C). The Pt100 resistance variation is transformed into a current or voltage signal, linear to temperature. SIGNAL TRANSMISSION The electronic circuit design provides the signal to increase linearly as humidity and temperature raise. In presence of cables transmitting high currents or machines causing electromagnetic noises, the transmitter connection cables have to be placed in a separate raceway, or far from them, to prevent these noises. It is recommended to use a shielded cable for the connections of instruments having a voltage output (HD9009TR). INSTALLATION AND ASSEMBLY Figures 1 and 2 show the connection diagram of the two models. RRH and R°C represent the current input of any device connected to the 4…20mA loop, that is: an indicator, a controller, a data logger or a recorder. In figure 2, “Vin%RH and Vin°C” symbols have the same meaning. Accuracy in measuring does not depend on the transmitter position. However, it is suggested to install the transmitter with the sensor faced downwards (where possible) to reduce dust deposit on the sensor protection filter. The transmitter shall not be mounted next to doors, in draughtiness, in areas with scarce air circulation, or near a heat source, as heating air involves a decrease of relative humidity (the quantity of available water vapour being equal). Protection degree: IP54. Ensure that the sensor is compatible with the atmosphere where it is installed.

Humidity

HD 9007-A1 HD 9007-A2

GND

HD 9008TRR, HD 9009TRR, HD 9007 TEMPERATURE AND HUMIDITY TRANSMITTERS, MULTIPLATE RADIATION SHIELD

VRH Vt Vdc

CHARACTERISTICS The HD9008TRR and HD9009TRR are single block RH and temperature microprocessor transmitters, temperature configurable. The HD9008TRR is a passive transmitter with a 4…20mA output and 10…30Vdc power supply; the HD9009TRR is a transmitter with a 0…1V standard voltage output (other outputs available on demand) and 10…30Vdc power supply. Sensors are mounted at the end of a plastic tube: a capacitive humidity sensor and a Platinum temperature sensor (100Ω @0°C). The instrument can be reprogrammed by means of a key, and no jumper or potentiometer actions are required. The humidity input can be recalibrated by using two saturated solutions: the first one at 75%, the second one at 33%; the 0%RH…100%RH relative humidity range is fixed, 4mA (or 0Vdc) correspond to 0%RH, 20mA (or 1Vdc) equal 100%RH. Temperature standard configuration is –40…+80°C for the HD9008TRR and –40… +60°C for the HD9009TRR, corresponding to 4…20mA and 0…1Vdc, respectively. The user can configure the temperature output in ranges different from the standard one by means of a Pt100 simulator or of a set of fixed resistances, provided that it is included in the -40°C…+80°C range with a minimum amplitude of 25°C. Two LEDs give alarm indications (temperature exceeding set range, sensor breakage or shortcircuit) and help the operator when programming.

Vin %RH

Vin °C

Fig. 1 %RH RRH

+ IRH Vdc It

Vdc

R°C

°C

Vdc

Fig. 2

GND VRH Vt Vdc

Fig. 3

Humidity

CAL °C

HD9009TRR Vout %RH

GND VRH Vt

LED

Vout °C

Vdc

CAL %RH 33%RH 75%RH ON

OFF HD9008TRR

CAL °C

IRH Vdc

LED

Iout %RH Iout °C

CAL %RH 33%RH 75%RH ON

OFF

Fig. 4

GND VRH Vt

V +

Vdc

Fig. 5

Vdc

–

Fig. 6

R.H.

Pt100

Fig. 7

R.H.

Pt100 R

0°C

Pt100

SIMULATOR

Humidity

PROGRAMMING HD9008TRR and HD9009TRR relative RH and temperature transmitters are factory calibrated. The HD9008TRR is provided with a 4…20mA current output, while the HD9009TR with a 0…Vdc voltage output. In the HD9008TRR standard configuration, 4mA correspond to 0%RH and –40°C, while 20mA equal 100%RH and +80°C. In the HD9009TRR one, 0Vdc corresponds to 0%RH and –40°C, while 1Vdc equals 100%RH and +80°C. The user can re-calibrate the RH probe holding the 0%…100%RH range and setting a different range for temperature, as long as it is within –40 and +80°C limits. Figure 4 shows the transmitter programming elements. Humidity Sensor Calibration The following accessories are needed. HD9008TRR model: a 10…30Vdc continuous voltage power supply, a precision ammeter with a 0…25mA min. range. HD9009TRR: a 10…30Vdc continuous voltage power supply, a precision voltmeter with a 0…1Vdc min. range. The calibration of the humidity sensor is carried out at two fixed points: at 75.4%RH – always as first point – and at 33%RH – second point. Procedure: 1. To access the panel board, unscrew grommet “A” (see fig. 3) and hold the cable firmly to avoid twisting. Take off the rubber bulb and unscrew the bottom of the instrument. 2. Connect the wires to provide the instrument with power supply, as shown in the connection diagrams (Fig. 5: HD9008TR and Fig.6: HD9009TR). 3. Insert the probe in the container with the saturate solution at 75%RH and wait 30 minutes at least. Probes and solutions have to be at the same temperature. 4. Turn 75%RH dip-switch on ON. 5. Press the CAL%RH little key and hold it down for 5 seconds, at least, until the corresponding LED does not flash. Now the little key can be released: the LED will remain on. A built-in sensor compensates the temperature difference of the solution compared with 20°C. 6. Turn the 75%RH dip-switch on OFF. 7. Put the probe in the container with the saturate solution at 33%RH and wait for 30 minutes, at least. Probes and solutions have to be at the same temperature. 8. Turn the 33%RH dip-switch on ON. 9. Press the CAL%RH small key and hold it down for 5 seconds, at least, until the corresponding LED is not off. Now the little key can be released. If the solution is at 20°C, the output will equal 9.28mA (in HD9008TRR model) and 0.330V (in HD9009TRR model). 10. Turn the 33%RH dip-switch on OFF again. 11. Re-close the instrument: re-screw the bottom, put the rubber bulb again at its place and screw the grommet: hold the cable firmly to avoid twisting it. 12. The calibration of the RH probe is finished. Important Note: the first calibration point has to be always at 75%RH

IRH IRH

Follow these procedures to access the transmitter terminal board (see fig.3): Unscrew grommet “A”, take off rubber bulb “B” and unscrew bottom “C”. Insert the cable through A, B and C elements and connect it to the terminal board. Hold the cable firmly while screwing grommet “A” to avoid twisting.

Fig. 8

Programming of Temperature Operating Range The following accessories are needed. For HD9008TRR: a 10…30Vdc continuous voltage power supply, a precision ammeter with 0…25mA minimum range. For HD9009TRR: a 10…30Vdc continuous voltage power supply, a precision voltmeter with 0…1Vdc minimum range. Pt100 simulator or a set of precision resistances. Procedure: 1. To access the panel board, unscrew grommet “A” (see figure 3) and hold the cable firmly to avoid twisting. Take the rubber bulb off and unscrew the bottom of the instrument. 2. Unscrew the sensor protection filter. 3. Unsolder the Pt100 sensor (the narrowest one) and in place of it, solder the output wires or those of a Pt100 simulator or of a precision resistance, as shown in figures 7 and 8. Then wait a few seconds for the junction to get cold. 4. Set the Pt100 simulator at the temperature corresponding to the scale upper value. For example, if you want to configure the –10°C…+80°C range, the simulator has to be set at –10°C; the equivalent resistance value will be 96.09Ω. If the calibration is carried out with a fixed resistance, connect a 96.09Ω fixed resistance to the terminals to which the sensor was soldered. 5. Wait 10 seconds until the measurement becomes steady, press the “CAL °C” key (calibration) and hold it down for min. 5 seconds, until the LED first flashes (once) and then remains on. 6. Set the Pt100 simulator at the temperature value provided for the full scale. According to the above example, the simulator will be set at +80°C; the equivalent resistance value will be 130.89Ω; if the calibration is carried out with a fixed resistance, a 130.89Ω fixed resistance will have to be connected to the terminals to which the sensor was soldered. 7. Wait 10 seconds until the measurement becomes steady, press the “CAL °C” key (calibration) and hold it down for min. 5 seconds, until the LED is off. When you release the key, the LED will flash twice to confirm that programming took

place. Now the procedure is over. 8. Check that the configuration corresponds to the requested specifications, by setting the simulator (or connecting the precision resistances) at the values corresponding to the upper and full scale value and by checking the output with the ammeter (HD9008TRR) or with the voltmeter (HD9009TRR). 9. Solder again the temperature sensor. 10. Insert again the sensor protection filter, screw the bottom, put the rubber bulb again at its place and screw the grommet holding the cable firmly to avoid twisting. 11. The temperature output programming is over. Saturate reference solutions are available for RH calibration. Calibration is suggested every 12/18 months for instruments with continuous operation, according to the environment they are working in. Check that the sensor and the atmosphere where it is employed be compatible, above all in case of aggressive environments (they might corrode the sensor). HD9008TR

Electronics Working Temperature Sensor Working Temperature Transmitter Power Supply Capacity Measuring Range HUMIDITY

Accuracy at 20°C Response time at 63% of final variation Output Signal

TEMPERATURE

Load Resistance Measuring Range – Standard Configuration - (**) Accuracy Response time at 63% of final variation Output Signal Load Resistance Dimensions Cable Dimensions Maximum Length (***) Wire Min. Section Cable Max. Diameter

HD9009TR -40…+80°C -40…+80°C

10...30Vdc (4…20mA)

10…30Vdc (2mA)

300 pF typ. 0…100%RH ±2%RH (10…90%RH) ±2.5%RH (for the remaining range values) 3 min. with filter; 6s without filter no thermal shock 0%RH = 4.0mA 0%RH = 0.00 Vdc 100%RH = 20.0mA 100%RH = 1.00 Vdc (*) (Vdc - 10) RinMIN=10KΩ RLmax= 22mA -40…+80°C

Characteristics Luran S777K (BASF) antistatic UV-resistant thermoplastic material with low thermal conductivity and high reflection. White power-painted, anticorodal aluminium support bracket. Stainless steel U-bar mounting bracket for shafts from 25 to 44mm. Dimensions: external Ø : 130 mm. Height, excluding bracket: HD9007 A1: 190 mm, weight: 640 gr. HD9007 A2: 240 mm, weight: 760 gr. Sensor fixing ring nuts: Ø 27 mm, Ø 25 mm on demand when ordering. HD9007 ring-shield is suitable to protect temperature and RH/temperature sensors used in weather stations from solar radiations, rain and wind. ORDERING CODES HD9008TRR: dual passive RH and temperature microprocessor transmitter 4…20mA outputs in 0…100%RH and -40…+80°C ranges. HD9009TRR: dual RH and temperature microprocessor transmitter. 0…1V output in 0…100%RH and -40…+80°C ranges. HD9007 A1: 12-ring protection L=190 mm complete with mounting brackets. HD9007 A2: 16-ring protection L=240 mm complete with mounting brackets. HD75: saturated salt solution 75% R.H. with adapter M 24x1,5 HD33: saturated salt solution 33% R.H. with adapter M 24x1,5 HD9008.21.1: holder for vertical sensor, wall distance 250mm, hole Ø 26. HD9008.21.2: holder for vertical sensor, wall distance 125mm, hole Ø 26.

-40…+80°C

±0.15°C ±0.1% of measurement 60s with filter; 5s without filter -40°C = 4.0mA -40°C = 0.00 Vdc +80°C = 20.0mA +80°C= 1.00 Vdc (*) (Vdc - 10) RinMIN=10KΩ RLmax= 22mA Ø 26 x 225mm 200m 20 AWG - 0.5mm2 Ø5mm

Humidity

TECHNICAL DATA

HD9007 MULTIPLATE RADIATION SHIELD

124

10m 20 AWG - 0.5mm2 Ø5mm

137

(*) For HD9009TRR models, 0…5Vdc, 1…5Vdc, 1…6Vdc, 0…10Vdc voltage outputs can be provided on ordering. (**) Out-of-standard measuring ranges have to be requested when ordering and have to be re-programmed with a Pt100 simulator. (***) Use screened cables.

Ø 25÷44mm MAX

HD 9008.21.2

HD 9008.21.1

Humidity

Connections HD9817T1 and HD9817T1.1 models with 0...1Vdc analogue output. Power supply 5÷30 Vdc Red

HD 9817T1 HD 9817T2 HD 9817T3

Grey Black Blue White Shield

V out %RH

V out °C

The instrument is equipped with a 7 wire + shield cable. The Yellow and Green wires are used during calibration only for PC connection through the HD9817T.1CAL interface module (see the paragraph about the RH sensor calibration). Power is supplied to the Red (+) and Grey (-) wires. The output signal voltage is taken from: • Black (+) and White (-) wires for temperature, • Blue (+) and White (-) wires for relative humidity. The shield must be connected to the White wire. HD9817T2 model with RS232C output and HD9817T3 model with USB output. The HD9817T2 cable ends in a RS232C 9-pole subD female connector, while the HD9817T3 cable ends in a USB type A connector. The following set of commands is available for both instruments. Command Response

HD 9817T1, HD 9817T2, HD 9817T3 Relative humidity and temperature transmitters with digital or analogue output Dual relative humidity and temperature transmitter for HVAC applications, environmental monitoring, pharmaceutical storage, food transport, greenhouse automation, etc. Equipped with an IP65 stainless steel AISI 304 housing, it is suitable even for severe environments; besides, its ultra-compact dimensions (∅ 14 x 133 mm) and wide range of outputs (analogue 0...1V or digital RS232C, USB 1.1-2.0) make it ideal for integrating into a variety of OEM applications. It is supplied with the HD9817TC software for reading measurements and calibrating the relative humidity sensor. Versions, outputs and connections HD9817T1 HD9817T1.1 0...1V = 0…100%RH 0...1V = –40…+60°C (-20…+80°C on request)

Output Temperature sensor Load resistance Cable Connection

Pt100

HD9817T2

HD9817T3

RS232C non insulated, USB 2400 baud rate 1.1-2.0 non insulated

HD9817T_Pt100_RH_RS232 Model

Firm.Ver.=01-00

Firmware version

HAnn.n

HBnn.n

0072.7 | 063.9

75% calibration point where nn.n stands for the actual humidity value 33% calibration point where nn.n stands for the actual humidity value It sends the current measurement (tttt.t | hhh.h) t = temperature h = RH

International System of units

Imperial units

Note for HD9817T3 model with USB ouput This model requires that you install USB drivers first in order to ensure a correct PC connection: don’t connect the instrument to your PC before installing the drivers. For further details, see the guide in the CDRom which is supplied with the instrument. Relative humidity calibration The instruments are supplied factory calibrated and ready to use. The CDRom supplied with the instruments includes a relative humidity calibration procedure. The online help describes this procedure in detail. No procedure exists for temperature calibration. To connect HD9817T1 and HD9817T1.1 models to your PC, use the HD9817T.1CAL interface module: the module is equipped with a USB type A connector for your PC USB port connection as well as a 4-pole terminal board to connect the transmitter. Before connecting the module to your PC, you need to install the USB drivers: don’t connect the module to your PC before installing the drivers. For further details, see the guide in the CDRom which is supplied with the instrument.

Pt100

Please connect the Red (power supply positive), Grey (power supply negative), Yellow (Tx) and Green (Rx) wires as shown in the figure below.

L= 2m DB9 female connector

L= 2m USB connector type A

The terminal board is seen from above: in order to direct the clamps correctly, make sure that the label on the side of the module is placed as shown in the figure below.

NTC 10kΩ Rl > 10kΩ L=1,5m (7 wires + shield)

Description

HD9817T1CAL

Humidity

GREY

GREEN

RED

GREY

RED

GREEN

YELLOW

Label

YELLOW

PG16.12 Metal cable gland D = 10…14mm L = 6.5mm H = 23mm A = PG16

HD9008.31 Flange

Universal biconical connector L = 35mm D = 14mm A = 3/8”

For wall-mounted installation, the HD9008.21.1 (distance from wall 250mm) and HD9008.21.2 (distance from wall 125mm) supports are available. Both require the HD9008.26/14 adapter. For direct wall mounting on a metal support, the HD9817T.4 part is available as shown in the figure below (for HD9817T1 and HD9817T1.1 versions only). Wall

Part. HD9817T.4

The wall can be 2mm thick at most while the hole in the wall can be 10.5mm. Electrical connection HD9817T1 and HD9817T1.1 models Power supply The power supply voltage must be as per the electrical specifications (5...30Vdc) between the wires: Red = (+) power supply positive Grey = (-) power supply negative. Analogue output The voltage output signals are taken from the following wires: Blue = (+)%RH output positive Black = (+)Temperature output positive White = (-) ground. Common reference between %RH and Temperature outputs. Shield = the braid is connected to the common ground (White wire). HD9817T2 and HD9817T3 models These models are powered directly from your PC port and no external power supply is required.

Order codes HD9817T1R: Dual relative humidity and temperature transmitter, Pt100 sensor. 0...1Vdc analogue outputs. Temperature measuring range ‑40...+60°C (‑20… +80°C on request). Power supply 5...30Vdc. AISI 304 housing. Probe protection class IP65. Dimensions ∅14x133mm. Output with cable L=1,5m (7 wires + shield). Max. working temperature ‑40°+80°C. Supplied with HD9817TC software. HD9817T1.1R: Dual relative humidity and temperature transmitter, NTC sensor 10kΩ. 0...1Vdc analogue outputs. Temperature measuring range ‑40...+60°C (‑20…+80°C on request). Power supply 5...30Vdc. AISI 304 housing. Probe protection class IP65. Dimensions ∅14x133mm. Output with cable L=1,5m (7 wires + shield). Max. working temperature ‑40°+80°C. Supplied with HD9817TC software. HD9817T2R: Dual relative humidity and temperature transmitter, Pt100 sensor. RS232C digital output. Temperature measuring range ‑40...+60°C (‑20… +80°C on request). Powered directly from your PC RS232C port. AISI 304 housing. Probe protection class IP65. Dimensions ∅14x133mm. Output with cable L= 2m with DB9 female connector. Max. working temperature ‑40°+80°C. Supplied with HD9817TC software. HD9817T3R: Dual relative humidity and temperature transmitter, Pt100 sensor. USB1.1-2.0 digital output. Temperature measuring range ‑40...+60°C (‑20… +80°C on request). Powered directly from your PC USB port. AISI 304 housing. Probe protection class IP65. Dimensions ∅14x133mm. Output with cable L= 2m with USB type A connector. Max. working temperature ‑40°+80°C. Supplied with HD9817TC software. HD9817T.4: Wall-mounting adapter. Only for HD9817T1 and HD9817T1.1 on request. HD9817T1CAL: USB interface module for connecting HD9817T1 and HD9817T1.1 transmitters to your PC USB port as well as calibrating or checking the humidity sensor. USB connector type A, cable L=1.5m. Connection through 4-pole terminal board. HD75: saturated salt solution 75% R.H. thread M 12x1. HD33: saturated salt solution 33% R.H. thread M 12x1. HD9008.21.1: holder for vertical sensor, wall distance 250mm, hole Ø 26. Adapter is required HD9008.26.14 HD9008.21.2: holder for vertical sensor, wall distance 125mm, hole Ø 26. Adapter is required HD9008.26.14 HD9008.26/14: holders for Ø 26 and Ø 14mm holes, for HD9008.21.1 and HD9008.21.2 HD9008.31: flange with sensor block Ø 14mm for duct sensorsTC and TO series. P5: 20µ stainless steel grid protection for probes Ø 14mm, thread M 12x1. P6: 20µ sintered stainless steel protection for probes Ø 14mm, thread M 12x1. P7: 10µ PTFE protection for probes Ø 14mm, thread M 12x1. P8: 20µ stainless steel and Pocan grid protection, thread M 12x1.

Ø 14

HD9817T… Dimensions

Technical data HD9817T1R - HD9817T1.1R- HD9817T2R - HD9817T3R Sensor Capacitive Sensor protection P8, stainless steel grid and PTFE, 20µ Measuring range 0..100%RH Sensor working range -40…+80°C Relative humidity ±2% (10…90%RH), ±2,5% in the remaining Accuracy range Temperature dependence 2% on the whole temperature range Hysteresis and repeatability 1%RH Long term stability 1%/year Pt100 1/3 DIN Sensor type (on request, NTC 10kΩ: code HD9817T1.1 Measuring range -40...+60°C Temperature Accuracy ±0.2°C ±0.15% of the measured value Long term stability 0.2°C/year Power voltage 5…30Vdc Consumption Typically 2mA General Max. operating temperature -40…+80°C (for short periods) Operating humidity 0…100%RH Housing Dimensions Ø14x138mm Degree of protection IP65

145 mm

Humidity

Installation notes To fix the probe in a ventilation duct, pipe ,etc. you can use, for example, the HD9008.31.12 flange, a PG16 metal cable gland (∅10…14mm) or a 3/8” universal biconical connection.

HD 3817T… HD 38V17T…

Technical Information Heat conductivity with double combined NTC. Sensor protection 20µm sintered bronze filter AISI304 0...130 g/m3 (0...100% RH @60°C Measurement range and 1013hPa) (*) Sensor working range 0 … +200°C Accuracy ±3g/m3 to 35 g/m3 and 40°C Startup stabilization time 120 seconds 60 seconds with standard filter for a Response time 63% variation of the final value Repeatability ±5% Sensors type 4 wire Pt100 Measurement range 0 … +200°C 1 /3 DIN Accuracy 10 seconds for a 63% variation of Response time the final value 4…20mA (HD3817T...) RL < 500Ω

ABSOLUTE HUMIDITY Type of sensor

TEMPERATURE

Analog outputs (according to the models)

0…10Vdc (HD38V17T...)

GENERAL

Power supply voltage Consumption Temperature / Electronic Working Humidity Case size Protection Degree Case material Probe material

RL > 10kΩ 24Vac ±10% 50...60Hz On request, 115Vac or 230Vac ±10% 50...60Hz 4VA typical -10°C ... +70°C / 5...90% RH without condensation 120x80x55 mm IP66 probe excluded Polycarbonate Stainless steel AISI304

(*) Note: The 0...130g/m3 range is referred to a 60°C temperature. The absolute humidity maximum value varies with environment temperature according to the following diagram. Diagram of the absolute humidity and temperature outputs The graphs of the absolute humidity and temperature outputs are reported below.

HD 3817T…, HD 38V17T… Absolute humidity and temperature active transmitter The HD3817T... and HD38V17T... are double absolute humidity and temperature active transmitters with 4...20mA current or 0...10Vdc voltage outputs, respectively. Absolute humidity is the ratio between the mass of water vapour and the measured volume of air, and is expressed in g/m3. The transmitters of the HD3817T... family may be used in materials humidity control during a drying process. When the materials are dried through heating or a hot air flow, the air absolute humidity increase is directly proportional to the quantity of water lost by the materials. A control system measuring absolute humidity, can maintain a certain humidity level by injecting vapour or water spray in the environment, if needed. Generally, these transmitters are employed in the chemical, textile, food industry, in the production and storage of paper, in the drying of wood,... even with high temperatures and wide humidity excursions. The type of sensor used is immune to most physical and chemical contaminants. The maximum working temperature is 200°C: This makes these instruments particularly suitable to heavy industrial applications where the traditional capacitive sensor cannot be used. The response time is fast, as well as the recovery time from saturation. The maximum measurement ranges are: 0...130 g/m3 for absolute humidity and ‑50...200°C for temperature: The instruments come out of the factory with the 0...60g/m3 and 0...200°C standard ranges. You can request, when making the order, different ranges both for absolute humidity and temperature, but within the set limits. The standard power supply is 24VAC. On request, we can supply the 115VAC or 230VAC versions. The probe, completely in stainless steel, has a 20µm sintered bronze filter. The case is in polycarbonate with an IP66 protection degree.

Humidity

Maximum Umidità assoluta absolutemassima humidity(g/m (g/m33))

140 120 100 80 60 40 20 0 20

100

120

Temperatura Temperature (°C) (°C)

140

160

180

200

Absolute humidity (g/m3) 4...20mA current output according to 0...60g/m3 standard range

Installation Notes Each probe is calibrated in the factory with its transmitter: A probe cannot be used onto another transmitter. The transmitter has to be installed into a position with good air circulation. The probe orientation is not important. To set the probe in a ventilation channel, into a duct, inside a dryer, etc. you can use the HD9008.31.12 flange, a PG16 (∅10…14mm) metallic fairlead or a 3/8” biconical universal fitting.

Current output 4...20mA Uscita in corrente 4...20mA

24 20 16 12 8 4 0 -10

HD9008.31.12 flange

Absolute humidity (g/m (g/m33)) Umidità assoluta

Biconical universal fitting L = 35 mm D = 14 mm A = 3/8”

8 A

0 -20

100 120 140 160 180 200 220

Temperature Temperatura (°C)

Electric connection Output

Absolute humidity (g/m3) 0...10Vdc voltage output according to 0...60g/m3 standard range

Vac 1

Vac 2

g/m 3

GND 4

Probe °C 5

Abs Humidity 6 7 8

Pt100 10 11

Humidity

Uscita Currentinoutput corrente 4...20mA 4...20mA

PG16.12 metallic fairlead D = 14 mm L = 6.5 mm H = 23 mm A = PG16

Temperature (°C) 4...20mA current output according to 0...200°C standard range

Uscita Voltage in tensione output 0...10Vdc 0...10Vdc

12 10 8

Vac Power Supply

+ -- + Output Output °C g/m3

4 2 0 -10

Power Apply power to the instrument with the correct VAC voltage between the power supply terminals  and . Connection of the absolute humidity and temperature probe Connect the probe respecting the colours and the numbers in the following table:

Umidità assoluta Absolute humidity(g/m (g/m3)3)

Function

Temperature (°C) 0...10Vdc voltage output according to 0...200°C standard range

Absolute Humidity

Uscita Voltage in tensione output 0...10Vdc 0...10Vdc

Pt100 Temperature

10 8 6

Terminal Number 6 7 8 9 10 11 12

Cable Colour Red White Yellow Blue Blue Black Black

Analog outputs The output signals are acquired between the terminals: =g/m3 and =GND for absolute humidity, =°C and =GND for temperature.

4 2 0 -20

100 120 140 160 180 200 220

Temperature (°C) (°C) Temperatura

Calibration The instruments are calibrated in the factory; no calibration is required by the user.

Humidity

Dimensions

HD38 X 17T X CX . X

Ø26

22.5

Power 0 = Standard 24VAC power supply 1 = 115VAC power supply 2 = 230VAC power supply Cable length C2 = Cable 2 meters C5 = Cable 5 meters

127 (HD38x17T1...) - 227 (HD38x17T2...)

Stem length: 1 = Stem length 127 mm 2 = Stem length 227 mm

167 (HD38x17T1...) - 267 (HD38x17T2...)

Analog output No number = Current analog output 4...20mA V = Voltage analog output 0...10VDC

55mm

120mm

Ø4.5 Ø4.5

80mm

50mm

107.5mm

Order codes HD3817T...: Absolute humidity and Pt100 temperature double transmitter. Analog outputs 4...20mA. Measurement range of absolute humidity 0...60g/m3, temperature 0...+200°C (on request, when making the order, other outputs in the ranges 0...130g/m3 and 0...+200°C). Probe with 20µm sintered bronze filter AISI304. Electronic working temperature ‑10°...+70°C. Probe working temperature 0C°...+200°C. When making the order, please specify: 1) Power supply. 2) Stem length 127 mm or 227 mm. 3) Probe’s cable length 2 m or 5 m. HD38V17T...: Absolute humidity and Pt100 temperature double transmitter. Analog outputs 0...10Vdc. Measurement range of absolute humidity 0...60g/m3, temperature 0...+200°C (on request, when making the order, other outputs in the ranges 0...130g/m3 and 0...+200°C). Probe with 20µm sintered bronze filter AISI304. Electronic working temperature ‑10°...+70°C. Probe working temperature 0C°...+200°C. When making the order, please specify: 1) Power supply. 2) Stem length: 127 mm or 227 mm. 3) Probe’s cable length: 2 m or 5 m. Relations between absolute humidity, relative humidity and mixing ratio %RH = AH =

100 · E Es 804 · E (1+0.00366 · T) · P0

0.622 ·E P0 – E %RH = % of relative humidity AH = Absolute humidity in g/m3 MR = Mixing ratio in water vapour kg per air kg E = Current value of vapour pressure in air in Pascal E = Saturated vapour pressure in air in Pascal P0 = Atmospheric pressure in Pascal T = Temperature in Celsius degrees The Es value can be obtained from a psychrometric table MR =

Humidity

HD 2601V.1 HD 2601V.2

Installation and connections Fig. 1 shows the typical configuration: the display is inserted between the transmitter (8) and the DIN43650 female connector (1). The display has two keys: one externally accessible (5) used for data display: current measurement, maximum, minimum and average values, timer; the internal key (9) is accessible only after removing the cover, and is used together with the external key for programming. In box (3) over the display window, the unit of measurement label can be applied. The card supporting the display and relevant cover can be rotated at 90° pitches by unscrewing the 4 screws at the corners. Fig. 2 and 3 illustrate the electrical connections of the single model HD2601V.1 and the dual model HD2601V.2. Vdc represents the direct current power source. RL, RL1 e RL2 are the devices inserted in the current loop (PLC, recorder,…). In the HD2601V.1 model, Rd represents the load connected to the open-collector digital output. NOTE on Fig. 2: if a relay coil is controlled, insert a diode protecting the device’s output. The numbers 1, 2 and 3 refer to the information on the instrument’s connector:

11 22 33

+Vdc +Vdc

Iout 4...20mA Iout 4...20mA

11 22 33

+Vdc +Vdc

Iout1 4...20mA Iout1 4...20mA

Iout2 4...20mA Iout2 4...20mA

Digital Output Digital Output

Fig.4 - HD2601V.1

Fig.5 - HD2601V.2

Remove the gasket (1). Unscrew the fairlead (5) and take off the gasket (4). Use a screwdriver to pry and take off the connecting terminal (2). Make the connections as shown in the Fig. 7 and 8: if present, the shielded cable braid must be connected to the earth terminal. Once the connections are made, close the connector.

HD 2601V.1, HD 2601V.2 4…20mA TRANSMITTER DISPLAYS WITH DIN43650 CONNECTOR

2 3

The HD2601V.1 is a 4...20mA passive transmitter display with DIN43650 connector; the HD2601V.2 model is fitted with two independent dual-output transmitter viewers. The display is inserted between transmitter and connector. Power is supplied by the 4...20mA current loop. The snap-in display can be programmed by the user. Two keys can be used to set scale factors, decimal point position, display update time, maximum, minimum and average values display, time passed after turn-on, open-collector digital output parameters of the single display version. The programmable parameters are saved into a permanent memory and are not erased when power is disconnected. All device functions are continuously monitored by an integral diagnostic system. In the single model HD2601V.1, the open-collector digital output can control a digital device or a relay coil. The instrument display can be rotated at 90° or overturned to fit different installation conditions.

4 5 6

Fig.1

+Vcc +Vcc

+Vcc

Digital Output

4...20mA Transmitter

Iout Rd

RL1

Iout

+ RL

HD2601V.2

+Vcc

Vdc

HD2601V.1

Vdc

+Vcc

Iout1 RL2

Iout1 4...20mA Transmitter 1 Iout2

Iout2 4...20mA Transmitter 2 DIODE PROTECTING

Fig. 2 HD2601V.1 connection

Fig. 3 HD2601V.2 connection

Humidity

To proceed with the electrical connections, open the connector by removing the screw (6) as shown in the Fig. 6:

Menu Item dP ZP 4 EP20

+ + RLRL

Vdc Vdc

Uscita + +Uscita Digitale Digitale

Iout2 Iout2

RL2 RL2

Fig. 7 - HD2601V.1 Electrical connections of the connecting terminal

+ +

Iout Iout

+ +

+ + Vdc Vdc

filt

Iout1 Iout1

RL1 RL1

Fig. 8 - HD2601V.2 Electrical connections of the connecting terminal

HILO

The display is now ready for use: proceed with the programming of the scale factors.

S Fu (*)

Maximum load The RL maximum load applicable to the 4...20mA loop, after insertion of the display, can be calculated as follows (see Fig. 2 and 3):

S Pt (*) HYSt (*) dir (*) rst

RLmax =

Vdc - (Vtx + 6)

Description Selection of the decimal point position Top scale value associated to the 4mA current Bottom scale value associated to the 20mA current Sets the averaging filter on the measurement: this filter calculates the average current of the values captured. The instrument captures 4 measurements per second: one each 0.25s. By setting filt=0.25s no average is performed; with filt=5.00s the moving average is calculated on the last 20 samples. It is possible to set the intermediate values from 0.25s to 5.00s with 0.25s pitches. If HILO=YES the display shows “Lo” if the current drops under the minimum threshold 4mA, and “HI” if the current raises over 20mA. If HILO=NO the display continues even outside the limits without showing any alarm. Digital output (only HD2601V.1). By selecting YES the output is enabled, pressing NO the output is disabled. Sets the digital output tripping point (see Fig. 9). Sets the hysteresis width for digital output switching (see Fig. 9). Sets the digital output tripping direction (see Fig. 9). Sets the timer to zero.

(*) This function is available only for the HD2601V.1 model.

0,022

Vdc is the direct voltage, Vtx is the voltage drop on the transmitter (shown in the relevant technical characteristics). Display By pressing the external key (5) (see Fig. 1) it is possible to display, in sequence, the maximum, minimum and average of the captured measurements since the last reset (Record function), and the time passed since the last reset (Timer function). The controls to reset the Record and Reset functions are independent. The following table shows, in the same order, the indications provided by the display when repeatedly pressing the external key (5). The sequence starts from measurement mode: Display indication Current measurement “HIGH” message Maximum value “Lou” message Minimum value “Aug” message Average value Y ## d ## H ## n ## S ## “MEAS” Current measurement

Notes

dir = DOWN dir = DOWN

dir = UP dir = UP SWITCH ON SWITCH ON

SWITCH ON SWITCH ON

SWITCH OFF SWITCH OFF

SWITCH OFF SWITCH OFF HYSt

Reading Reading

HYSt S Pt

S Pt

Fig. 9 Description of the Digital Output function

4 digit LED, 7.6mm high. The decimal point position can be programmed. Display range -1999…+9999 Power Power supplied by the 4…20mA current loop Maximum voltage drop 6Vdc Accuracy 0.2% of span ± 1 digit Temperature drift 0.01%/°C RL load resistance RLmax = [Vdc-(Vtx + 6)] / 0,022 Speed of conversion 4 measurements per second Electrical connections DIN43650 connector Parameter settings memory Permanent Programming Using two keys (5 - 9), one internal Moving average that can be set from 1 (no average) to Display filter 20 samples Error messages HI = current over 20mA - LO = current under 4mA Protection degree IP65 Functioning temperature -10…+80°C Display

It means “LOW” It means “AVERAGE” ## shows the years ## shows the days ## shows the hours ## shows the minutes ## shows the seconds returns to normal measurement

To reset the Record (MAX, MIN and AVG) values, keep the external key pressed (5) for about 10 seconds until the display indicates “CLr” (CLEAR). To reset the timer use the RST (RESET) function in the menu: for the details see the chapter dedicated to programming. Programming In order to program the display, the internal key needs to be accessed: unscrew the four screws in the corners of the display face-plate. The internal key (INT) is shown in Fig. 1 by number (9), the external key (EXT) by number (5). Using the INT key the various menu items are scrolled. Use EXT to access the displayed item. Within the menu item, the two keys are used to increase or decrease the current information. To confirm the entered value press simultaneously the two keys. To exit the menu, press INT and scroll all the items.

Technical characteristics of the HD2601V.1 model digital output Type of output Maximum current Maximum reverse voltage

Open collector, ground output 100mA 30Vdc

ORDERING CODES HD2601V.1: Configurable sandwich LED indicator, plug-on, for transmitters with DIN 43650 connector and 4÷20 mA output, (i.e. HD2004T). HD2601V.2: Configurable sandwich dual LED indicator, plug-on, for transmitters with DIN 43650 connector and 4÷20 mA outputs, (i.e. HD9008TR.K).

PG7

Humidity

Reading Reading

Technical characteristics

It means “HIGH”

Fig. 6 DIN43650 connector

HYSt

S Pt

HD2601V.1

HD2601V.2

HD 4049 HD 5002 HD 404

HD 404

temperature differs by more than 8°C from the set value (or if humidity differs by more than 15% from the set R.H.). A dip switch on the rear of the instrument selects the alarm conditions, high or low for temperature, high or low for humidity. TECHNICAL DATA Using range: humidity 0%...100% R.H. Temperature: -20...+80°C (HD 5002), -30...+130°C (HD 5002/5) depending on the transmitter used Resolution: 0.1°C, 0.1% R.H. Accuracy: transmitter included, relative humidity: ±2,5% up to 90% R.H., ±3% beyond 90% R.H. Temperature: ±0.3°C Hysteresis: 0.6°C÷6°C, 1÷10 points of relative humidity Display: red LEDS; 3 ½ figures, height 12.7 mm Outputs: 4 exchange contacts (↑°C,↓°C,↑%R.H.,↓%R.H.) plus alarm contact when made, capacity 3 A/220 Vac resistive Power supply: 24 Vac Instrument working temperature: -5...+50°C Dimensions: front panel: 96x96 mm. instrument body: 88x90x123 mm. ATTENTlON: For compatibility with DELTA OHM 4÷20 mA regulators place the jumper in the position 4÷20 mA . With the multidrop technique, more than one regulator, indicator or recorder may be connected in series.

HD 4049

HD4817T…

Humidity

HD 5002 The temperature configuration of the transmitter HD4817T… connected to HD5002 has to be: 4mA = -20°C … 20mA = +80°C.

HD 4049, HD 5002, HD 404 78X48 OR 96X96 PANEL REGULATORS FOR CONNECTION TO TEMPERATURE AND RELATIVE HUMIDITY TRANSMITTERS HD4817T…

MODELS: HD 404, HD 4049 CHARACTERISTICS SHARED BY THE VARIOUS MODELS: - Resolution: 0.1°C, 0.1% R.H. - DispIay: red LEDS, height 12.7 mm - Precision: instrument onIy ±0.1 - Power suppIy: 12÷24 V - Relay contacts for the reguIators: Clean exchange contact 3A/220 Vac resistive - Electronics working temperature: -5...50°C

HD 5002, HD 5002/5 The HD 5002 or the HD 5002/5 in combination with temperature and relative humidity transmitters forms a complete temperature and humidity measuring and regulating system. Depending on the series, the HD 5002 feeds the transmitter and measures the absorbed current which is proportional to the relative humidity (terminal IR.H.) and the temperature (terminal It). Voltage drops along the connection wires do not influence the measurement precision, since the signal is a current and not a voltage. Regulation is of the three-point type (heat - OFF - cool for temperature, humidify - OFF - dehumidify for relative humidity). Also, an aIarm contact is made if the

HD 4049 ON/OFF relative humidity regulator This reguIator may be connected to the transmitters of the series: HD4817T… OR HD4917T… ReguIating range: 4 mA 0% R.H., 20 mA 100% R.H. Hysteresis: 1÷6 points of reIative humidity Bridge for selecting the function: humidify/dehumidify.

The temperature configuration of the transmitter HD4817T, connected to HD404 has to be: 4mA = -20°C … 20mA = +80°C.

HD 404 ON/OFF temperature regulator This regulator may be connected to the transmitters of the series: HD 2008T, HD 2012T... as long as the temperature configuration of the transmitter is the same as the regulator ReguIating range: 4 mA -20°C, 20 mA +80°C Hysteresis: 0.6÷6°C. / Bridge for selecting the function:

Dimensions HD404 and HD4049 Humidity

HD 9022

- Functions: One relay with independent exchange contact for output HI (SP1, SP2). One relay with independent exchange contact for output LO (SP3, SP4). One relay with maximum or minimum alarm closing contact (L max, L min.) ALARM. Resistive relay contacts 3A/220V 50Hz. - Instrument working temperature: (electronic componentry) 5°C÷50°C. - Power supply: there is a terminal board for input 12÷24Vac/Vdc or 110÷240Vac/ Vdc (the one or the other; not both kinds of power supply). - Instrument absorption: 5VA. - Minimum power of the supply transformer: 20VA. Function of the keys on the front panel, the display and the leds  Digital display. During programming the following wording appears: F0, F1, F2, F3, F4, F5, F6, F7, F8, SP1, SP2, SP3, SP4, S10.  State indicator of HI relay.  State indicator of LO relay.  State indicator of ALARM relay.  Decimal point.





  



HD 9022 CONFIGURABLE MICROPROCESSOR INDICATOR, REGULATOR Pt100 4 WIRE CORRENT OR VOLTAGE INPUT





SEQUENTIAL PROGRAMMING OF WORKING PARAMETERS  PROG Every time this key is pressed the program moves one step forward (F0, F1, F2, F3, F4, F5, F6, F7, F8, SP1, SP2, SP3, SP4, S10).  ENTER When this key is pressed during programming, the value of the selected variable, which can be modified by the ▲ ▼ keys, is displayed; pressing once again ENTER confirms the stored value.  ▲ Pressing this key during programming increases the value indicated on the display; in F2, it moves the decimal point towards the right. In normal operation it flashes to indicate the value in Volts, mA or Pt100 corresponding to the input; with a second impulse it returns to normal operation.  ▼ Pressing this key during programming decreases the value indicated on the display; in F2, it moves the decimal point towards the left. In normal operation it flashes to indicate the value in Volts, mA or temperature corresponding to the input; with a second impulse it returns to normal operation.

The microprocessor-controlled panel instrument HD 9022 is an indicator with alarm thresholds that may be programmed and configured by the user. At input it accepts signals arriving from transmitters with 2 or 3 wires, in voltage 0÷1V, 0÷10V or in current 0÷20 mA, 4÷20 mA, or Pt100 with 4 wires. Configuration is always completely present in the instrument, no additional cards are required. The choice for the configuration of the input signals is made by means of the keyboard on the front of the instrument. The dimensions of the instrument are 96x48 mm with depth 145 mm in conformity with DIN 45700. The mode of operation of the HD 9022 is chosen depending on the application, configuring the instrument with the keyboard. The instrument may also be reconfigured with absolute simplicity on the field in order to adapt it to changes in processing requirements. The configuration involves the input, the scale range, the set point and the auxiliary outputs.

HD 9022 / °� C

ALARM

12 �÷ 24V ~ – 110 �÷ 240V ~ –

R TD/Pt100

HD 788/... HD 988/...

SP AN ZERO 0

+ 4

-5 Vdc (max 10 mA)

RS 232

� 10V) V IN (0 ÷ 5

+15 Vdc (max 22 mA) I IN 4�÷20 mA

Applications Typical applications are the display of signals sent by transmitters which may concern temperature, humidity, pressure, speed, capacity, level, force, etc., for the most varied industrial sectors, operating machines and automated systems. Characteristics - Set point configurable from -9999 to +19999. - Indication provided by red leds with seven ½ inch segments. - Separate clamp for voltage input 0÷1 / 0÷10V, current input 0÷20 / 4÷20 mA and Pt100 input (-200÷+800°C). - The instrument has an auxiliary power supply: -5 Vdc max 10 mA and +15 Vdc non stabilized max 40 mA for the possible supply of 2-wire transmitters. - RΙIN = 25 Ω, RVIN = 200 kΩ. - Instrument accuracy: ±0.1% Rdg ± 1 Digit. - A/D converter resolution: 0.05 mV/Digit, 1µA/Digit.



HD 9022 / RH

ALARM

T6 5V

12 �÷ 24V ~ – 110 �÷ 240V ~ –

T3 12% T2 33% I RH%

+Vdc

T1 76%

-5 Vdc (max 10 mA) V IN (0 ÷ � 10V)

RS 232

+15 Vdc (max 22 mA)

I IN 4�÷20 mA

Example of a connection with 2-wire transmitters; the instrument feeds the transmitter.

Humidity

0 0.0 0.00 0.000

Varying the configuration To vary a stored parameter at any stage of the program it is sufficient to the step of the program to be changed with the PROG key (F1, F2, F3, etc.). Press ENTER and use the ▲ ▼ keys to modify the parameter previously set; press ENTER to confirm, return to F0 and press ENTER. This simple procedure modifies the desired step of the program. Note If the ENTER, ▲ or ▼ key is pressed independently during operation, the instrument input value (V, mA or °C) flashes on the display. To return to normal operation, press the ▲ ▼or ENTER key independently again. Error signal The instrument indicates an error signal in the following cases: OFL: this appears when the set value of R max is exceeded. -OFL: this appears when the set value of R min is exceeded. E1: this appears when the set points P1 and P2 require a resolution of the A/D converter higher than the one available. E2: this appears when the values of F7 and F8 are inverted. THE MAXIMUM RESOLUTION OF THE CONVERTER IS: 0.05 mV/Digit, 1µA/Digit. Summary of programming steps of HD 9022

ALARM

L max R2

F6 SP SP

READING DISPLAY

SP SP

0 mA 4 mA 0V Pt100

20 mA 1V 10 V Pt100

LINE OF CALIBRATION

3 4

L min

HD9022 / %UR ALARM

F4 ALARM

Humidity

Configuration of the HD 9022 panel indicator 1) Supply power to the instrument. 2) The instrument performs an internal check, the wording C.E.I. appears for a few seconds followed by a number at random. 3) Press PROG and the message F0 appears. 4) Press PROG and the message F1 appears. 5) Press ENTER and the symbol U, A or Pt appears. Using the ▲ ▼ buttons, choose the input for voltage: U, current: A or Pt100: Pt signals. Press ENTER to confirm. 6) Press PROG and the message F2 appears; press ENTER; with the ▲ ▼keys, set the decimal point in the desired position.

INPUT

(V, mA, Pt100)

LO 12...24Vac 110...240Vac

3 4

MEASURE

75% 33%

I RH Vcc Vcc I t t RH

I IN

HD9022 / ALARM

�

RH%

RS232C

INPUT mA

5 6 7 8 9 10 11

MEASURE CAL

+15V

RHcomp PROGRAM SWITCH

RH%

Pt100

PROGRAM S WITCH

°C

LO 12...24Vac 110...240Vac

+15V I IN

RS232C

%UR

0 ÷ 1 mA 0 ÷ 10 mA 0 ÷ 16 mA 0 ÷ 20 mA 0 ÷ 5 mA 0 ÷ 10 mA 0 ÷ 20 mA

Input resistance 25 Ω ±�0,1%

INPUT V 0 ÷� 100 mV 0 ÷� 1 V 0 ÷� 5 V 0 ÷� 10 V 1 ÷� 5 V -10V a +10V

Input inpedance 200K Ω ±�0,1%

°C

Programming start. Selects the programming step, F0. Connection examples: HD 4917T... transmitters with HD 9022 panel meter

Selects the programming step, F1. Selects the programming step, F2. ........

HD 9022 / %UR ALARM

LO 12...24Vac

CAL RH%

CAL °C �

Exit program mode.

MEASURE CAL

GND

I IN

RS232C

75% 33%

3 4 5 RH% GND

6 7 8 9 10 11 12

�C

4...20mA 0...20mA 0...10V

RHcomp

RH%

Allows modification of the variable.

Pt100

RH% � °C

HD 9022 / °C ALARM

24Vac

Modifies the variable on display.

12...24Vac

%UR

Confirms the modification.

°C

Moves to next programming step.

GND I IN

RS232C

Examples of connection of the transmitter HD 4817T... with the indicator HD 9022 Humidity

STEP

COMMENT

The replies provided by the HD 9022 are essentially of two types: “Information” and “Data”

LIMITS

Press ENTER to exit program mode

Select type of input: Voltage, current, Pt100

U - A - Pt

Position of the decimal separator

Beginning of scale value of the input (Voltage, Current, °C)

0 - 0.0 - 0.00 - 0.000

Beginning of scale value of the display

Full scale value of the input (Voltage, Current, °C)

Full scale value of the display

-9999...19999

Maximum alarm threshold set point

-9999...19999

Minimum alarm threshold set point

-9999...19999

SP1

ON Threshold of Set-point HI

-9999...19999

SP2

OFF Threshold of Set-point HI

-9999...19999

SP3

ON Threshold of Set-point LO

-9999...19999

SP4

OFF Threshold of set-point LO

-9999...19999

S10

Baud rate

0...10,00V, 0...20,00 mA -200,0...+800,0°C -9999...19999 0...10,00V, 0...20,00 mA -200,0...+800,0°C

-9999...19999 300, 600, 1200, 2400, 4800, 9600

Serial interface RS-232C The HD 9022 is equipped with standard serial interface RS-232C which is available on the SUB D male 9-pin connector. The arrangement of the signals on this connector is as follows: Pin Signal Description 2 TD Datum transmitted by the HD 9022 3 RD Datum received by the HD 9022 5 GND Reference logic mass The transmission parameters with which the instrument is supplied are: - baud rate 9600 baud - parity None - n. bits 8 - stop bit 1 The data transmission speed may be changed by altering the set-up parameter S10 with the keyboard; the possible baud rates are: 9600, 4800, 2400, 1200, 600, 300. The other transmission parameters are fixed. All the messages reaching and leaving the HD 9022 must be inserted in a “Communication frame” with the following structure: <Stx><Record><Etx> Where: <Stx> Start of text (ASCII 02) <Record> constitutes the message <Etx> End of text (ASCII 03) Host commands The structure of the command records is as follows: <Command character><Sub-command><Values> Where: <Command character> is characterized by an alphabetic character indicating the set of commands. <Sub-command> is characterized by a character indicating the type of command. <Values> is characterized by ASCII characters that depend on the type of command.

COMMAND A Sub-command A Type of terminal C Company D Firmware Version E Firmware Date F Serial Number (rd) (wr)

Values HD 9022 DELTA OHM Vxx Rxx dd/mm/yy xxxxxx stxAFxxxxxxetx

Replies ack/nak ack/nak ack/nak ack/nak ack/nak ack/nak

COMMAND M Sub-command 1 2

Values Measure Channel 1 Measure Channel 2

Replies ack/nak ack/nak

RESET COMMAND (wr)

Values stxRESETetx

Replies ack/nak

CHANNEL 1 C1F01 x C1F02 x C1F03 xxxx C1F04 xxxx C1F05 xxxx C1F06 xxxx C1F07 xxxx C1F08 xxxx C1F09 xxxx C1F10 xxxx C1F11 xxxx C1F12 xxxx

Input in Point Start of scale V/I Start of scale End of scale V/I End of scale Energ. Relay HI De-energ. Relay HI Energ. Relay LO De-energ. Relay LO Min Relay Alarm Max Relay Alarm

V/A/Pt 0/1/2/3 -9999...19999 0000...10000 (2000 if I) -9999...19999 0000...10000 (2000 if I) -9999...19999 -9999...19999 -9999...19999 -9999...19999 -9999...19999 -9999...19999

V dc ALARM

I OUT

I IN (0/4 ... 20 mA)

Pt100

ALARM

Humidity

ALARM

V IN (0 �÷10V) GND

2 +15V

V IN GND

I IN

HD 2004T current output

Vdc HD 9022

+15V

Connections

V OUT

V OUT HD 9022

1 2 3 4 5 6 7 8 9 RS 232

I IN

-5 Vdc (max 10 mA) +15 Vdc (max 22 mA)

Gnd 1

12 �÷ 24V ~ – 110 �÷ 240V ~ –

ack/nak ack/nak ack/nak ack/nak ack/nak ack/nak ack/nak ack/nak ack/nak ack/nak ack/nak ack/nak

HD 2004T voltage output

Connection examples wih HD 9022 controller and panel meters

DO 9404

The instrument dimensions are in accordance with DIN 45700, 96x96 mm, depth 120 mm. The operating mode of the DO 9404 is chosen according to the application, configuring the instrument with the keyboard. It is possible to configure the instrument on the field with maximum simplicity to adapt it to changes in the process requirements. The configuration possibility concerns the inputs, the extent of the scales, the set points, the alarms and the baud rate. Applications A typical application of the DO 9404 is the display and regulation of signals arriving from passive 2-wire or active 3-wire transmitters, of any physical quantity: temperature, humidity, pressure, speed, level, etc. for a wide variety of industrial sectors and automation.

HD 9404 DUAL REGULATING INDICATOR WITH MICROPROCESSOR CONFIGURATION AND TWO INPUTS, FOR VOLTAGE OR CURRENT The dual regulating indicator DO 9404 is a microprocessor-controlled panel instrument with LED 96x96, with thresholds and alarms that may be programmed and configured by the user. In the two input channels it accepts signals coming from two distinct transmitters or from a double transmitter. The transmitters may be passive with 2 wires or active with 3 wires, in voltage 0÷1 V, 0÷5 V, 0÷10 V or current 0÷20 mA; 4÷20 mA. For both input channels the configuration possibility is always present in the instrument, no extra cards are needed. The choice of configurations for the input signals is made on the keyboard located on the front of the instrument. The DO 9404 is provided with a serial output RS232C, the baud rate may be configured by means of the keyboard, the control is bi-directional and the output connector is a SUB D female 9-pole connector.

RL1

ALARM

RL2

RL3

RL4

RS 232C GND

IIN2

VIN1 +15V GND -5V IIN1 +15V VIN2

9 8 7 6 5 4 3 2 1

Error signals The instrument gives error signals in the following cases: OFL: appears when the SET value is set higher than the high alarm value (maximum). -OFL: appears when the SET value is set lower than the low alarm value (minimum). E1: appears when a resolution of the AD converter has been asked for that is higher than what is available: THE MAXIMUM AD RESOLUTION IS 0.1mV/digit or 2µA/digit. E2: appears when there is an analog value at input that is lower or higher than that of the instrument: voltage 0 V..+10 V, current 0-20 mA. E3: appears when the values of the alarm thresholds are inverted. E4: reading/writing mistake on the Eeprom. Configuration of the regulating indicator DO 9404 1) Supply power to the instrument: 11÷30 Vac; 11÷40 Vdc. 2) The dual display indicates OFL on both channels (1 and 2) at the first programming, or values depending on previous programming operations. 3) When the PROG key is pressed, the message FO appears alternately on channel 1 or 2. 4) Select which channel (1 or 2) you want to program, for example channel 1. 5) Press the ▲ key, the message F1 appears; confirm with the ENTER key and the symbol A (Ampere = current signal 0÷20 mA, 4÷20 mA) or the symbol U (voltage V = voltage signal 0÷10 V) appears; with the ▲ and ▼ keys, prepare the input for the desired signal, current A or voltage; for example, set A current input, confirm with the ENTER key, then F1 appears. Press the ▲ key and the message F2 appears. 6) Press the ENTER key, four figures 8888 appear with the decimal point placed at random; using the ▲ and ▼ keys, set the decimal point in the desired position, the possible configurations are:

8888 8.8 8.88 8.888

RL5

DO9404

HD 4917T...

12÷24 V It Vdc Vdc RH%

24 V

Example of connection of a passive transmitter which sends the DO 9404 two current signals (4÷20 mA) Humidity

Humidity

Characteristics - Set point may be configured from -9999 to +19999 - Indication with 1/2” red LEDS - Separate terminal for each channel for voltage input 0÷10 V and current input 0÷20 mA, 4÷20 mA - On the terminal board an auxiliary power supply is available at -5 Vdc max. 10 mA and +15 Vdc non-stabilized max. 44 mA for the possible feeding of passive 2-wire transmitters - Instrument accuracy ±0.1% Rdg ± 1 digit - A/D converter resolution: 0.05 mV/digit, 1 µA/digit - Functions: Two relays with insulated HI LO exchange contact for channel 1: RL1, RL2 Two relays with insulated HI LO exchange contact for channel 2: RL4, RL5 One relay for the overall maximum and minimum alarms: RL3 Resistive 3A/230 Vac relay contacts - Instrument working temperature: (electronic components) -5°C..50°C - Power supply: 12÷24 ±10% Vac/Vdc.

8) Press the ENTER , key, then using the ▲ and ▼ keys set the analog value corresponding to the start of scale in voltage or current, depending on the choice made in point 5, for example 4.00 mA; confirm with ENTER , the message F4 appears, press the ▲ key and the message F5 appears. 9) Press ENTER , then using the ▲ and ▼ keys set the full scale value for channel 1, for example 130.0°C; confirm with ENTER , the message F5 appears, press the ▲ key and the message F6 appears. 10) Press the ENTER key, then using the ▲ and ▼ keys set the analog value corresponding to the end of scale in voltage or current, depending on the choice made in point 5, for example 20.00 mA; confirm with ENTER , the message F6 appears, press the ▲ key and the message F7 appears. 11) Press the ENTER key, then using the ▲ and ▼ keys set the SET LO value (closing of contact RL1) for channel 1, for example 0.0°C; confirm with ENTER , the message F7 appears, press the ▲ key and the message F8 appears. 12) Press the ENTER key, then using the ▲ and ▼ keys set the Reset HI value (opening of contact RL1) for channel 1, for example 10.0°C; confirm with ENTER , the message F8 appears, press the ▲ key and the message F9 appears. 13) Press the ENTER key, then using the ▲ and ▼ keys set the SET LO value (closing of contact RL2) for channel 1, for example 20.0°C (control of a refrigerating unit, for example); confirm with ENTER , the message F9 appears, press the ▲ key and the message F10 appears. 14) Press the ENTER key, then using the ▲ and ▼ keys set the Reset HI value (opening of contact RL2) for channel 1, for example 15.0°C (switching off a refrigerating unit, for example); confirm with ENTER , the message F10 appears, press the ▲ key and the message F11 appears. 15) Press the ENTER key, then using the ▲ and ▼ keys set the low ALARM value for the relay RL3, for example -5.0°C; confirm with ENTER , the message F11 appears, press the ▲ key and the message F12 appears. 16) Press the ENTER key, then using the ▲ and ▼ keys set the high ALARM value for the relay RL3, for example 25.0°C; confirm with ENTER , the message F12 appears, press the ▲ key and the message F13 appears. 17) Function F13 is used to select the baud rate for serial transmission; press the ENTER key and a baud rate value appears, then using the ▲ and ▼ keys set the desired rate, choosing one of the following: 300, 600, 1200, 2400, 4800, 9600; the other serial transmission parameters are fixed and cannot be changed; they are: 8 bit No Parity 1 Stop bit Note: the baud rate is the same for both channels. Press ENTER to confirm, press the ▼ key until FO appears indicating the end of programming; press the ENTER key. This operation concludes the programming of channel 1 as described up to this point. - Programming is the same for both channels, 1 and 2; all that has been described for channel 1 also applies to channel 2. - The function of the set and reset relays (close LO contact, open HI contact), of relays RL1 and RL2 or RL4 and RL5, depends on what the process requires. - To alter the parameters it is sufficient to enter the program by pressing the ENTER key; when FO appears, choose the channel in which you want to change the parameter, press the ▲ key until the function that you want to change appears, then make the change with the ▲ and ▼ keys; press ENTER to confirm, then return to FO function with the ▼ key, press ENTER thus returning to normal operation. - In normal operation, pressing one of the ▲ or ▼ keys passes from the measurement of the physical quantity to the voltage or current value corresponding to the measurement in progress; this applies to both channels. When one of the or keys is pressed the instrument returns to normal measuring status.

ALARM

- The serial interface is active only during normal operation. - The programming parameters remain in the memory even when the instrument is receiving no power. - The relays are disconnected during programming. Serial interface RS-232C The DO 9404 is equipped with standard serial interface RS-232C which is available on the SUB D female 9-pin connector. The arrangement of the signals on this connector is as follows; Pin 2 3 5

Signal TD RD GND

Description Datum transmitted by the DO 9404 Datum received by the DO 9404 Reference logic mass

The transmission parameters with which the instrument is supplied are: - - - -

baud rate parity n. bits stop bit

9600 baud None 8 1

The data transmission speed may be changed by altering the set-up parameter F13 with the keyboard; the possible baud rates are: 9600, 4800, 1200, 600, 300. The other transmission parameters are fixed. All the messages reaching and leaving the DO 9404 must be inserted in a “Communication frame” with the following structure: <Stx><Record><Etx> where: <Stx> Start of text (ASCII 02) <Record> constitutes the message <Etx> End of text (ASCII 03) Host commands The structure of the command records is as follows: <Command character><Sub-command><Values> Where: <Command character> is characterized by an alphabetic character indicating the set of commands. <Sub-command> is characterized by a character indicating the type of command. <Values> is characterized by ASCII characters that depend on the type of command. The replies provided by the DO 9404 are essentially of two types: “Information” and “Data”. The former allow information on the status and programming of the DO 9404 to be obtained, as well as the diagnosis of the message received; the latter contain data on the two channels at the moment the request is made. It is also possible to make use of the serial line for the complete programming of the DO 9404, with the exception of the data transmission speed which may be set only with the keyboard. The diagnostic replies of the DO 9404 are composed of the following control characters, sent individually (not inserted in the communication frame): -ack- Command executed (ASCII 06) -nak- Incorrect command (ASCII 15H) HI

ALARM

RL2

RL3

RL4

Pt100 RL1

RL2

RL3

RL4

RS 232C GND

IIN2

VIN1 +15V GND -5V IIN1 +15V VIN2

9 8 7 6 5 4 3 2 1

RL5 RL1 1

DO9404

12÷24 V

RS 232C

Temperature transmitter

HD 788TR1 +

4 5

–

GND

24 V

IIN2

VIN1 +15V GND -5V IIN1 +15V VIN2

9 8 7 6 5 4 3 2 1

RL5

DO9404

HD 2717T… 12÷24 � V

It GND RH%

24 V

24V

Pressure transmitter

HD 2004T…

Example of connection of transmitters which are connected to the DO 9404: - a temperature transmitter which sends a current signal (4÷20 mA) - a pressure transmitter which sends a current signal (4÷20 mA) 88

Humidity

Example of connection of a self-powered transmitter which sends the DO 9404 two current signals (4÷20 mA)

RESET COMMAND RESET (wr)

Vales

COMMAND Sub-command Values 1 Set-up Channel 1 2 Set-up Channel 2

As regards the command just described, a few remarks must be made: - There is no command character. - In the first two cases (Sub-command 1 and 2) the complete set-up of the DO 9404, for Channel 1 and for Channel 2, is made available in the serial line. - For all the other controls of the type C1F01 etc., the present programming status is supplied for the specific command if only the sequence of the subcommand characters is sent.

Replies DO 9404 DELTA OHM Vxx Rxx dd/mm/yy AFxxxxxx ack/nak Replies Measure Channel 1 Measure Channel 2 Replies